All Submission Categories

Theory of the Baryon Number

Authors: Ruiguo He
Comments: 14 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

The extension of the SU(3) symmetry is motivated for completion, with the introduction of a U(1)' group as a necessary component. Coupling parameters are derived through GUT recursions, leading to an observable theory for a strong-force partner. Tested parameters remain within experimental constraints, and the proposed particle is consistent with persistent deviations at ATLAS. Analysis of the charge distribution identifies the gauge number as the baryon number B. To address $SU(2)_L$ chiral anomalies inherent in baryon gauging, a solution is proposed requiring only two fermion flavors, termed "Zweigions" in honor of George Zweig. Due to over-damping, these states are treated as mathematical abstractions that align with hadronic surpluses and anomalon signatures at ALICE. The Zweigion mechanism cancels gauge leakages and Higgs coupling degrees of freedom while achieving the ideal GUT unification b-value, ensuring a renormalizable theory. Finally, this work challenges the Standard Model sphaleron interpretation, demonstrating that transitions may persist under B-gauging. This model predicts at least two undiscovered gauge symmetries based on the hypothesis results. Definitive testing of this theory is expected via the HL-LHC by 2030.
Category: High Energy Particle Physics

Simulations of Water Wave Generation Caused by Running Hydrofoil by Means of Wave-Making Green’s Function Due to 2-D Vortex

Authors: Tsutomu Hori, Manami Hori
Comments: 23 Pages, 13 Figures, 68 Equations, 10 References.

This paper conducts wave-making simulations for hydrofoils running at high speeds. The analysis is performed by constructing the wave-making Green's function due to a two-dimensional vortex filament by means of Fourier transform method. We adopt the developed Green’s function as the kernel function, and approach the problem using the boundary element method. The Green’s function is numerically computed by switching between three expansion forms, namely, Taylor expansion, continued fraction expansion, and asymptotic expansion, depending on the case.

Simulation calculations are performed on the lift force and wave-making resistance acting on the hydrofoil, the generated wave profile, the flow velocity vectors and the pressure distribution around the hydrofoil with a NACA airfoil. As a result, we gained concrete findings for the dependencies of wave-making phenomena upon the wing shape, running speed, submerged depth, angle of attack and other factors.
Category: Classical Physics

Space-Time Nature Might be Used to Bridge Between the Quantum and the Classic Physics

Authors: Moshe Segal
Comments: 14 Pages.

From the dawn of civilization Humans struggled to understand and explain their environment. The process of that struggle resulted in various branches of investigations and knowledge, which Humans denote as Science.Because the Human mind, which created this Science, is by itself composed of components which might be the same components that the environment is also composed of, Humans might be bound to never being able to understand and explain completely this environment, which is also denoted as the Existence, because one cannot explain an issue, if that explanation relies on this same issue. Nevertheless, Humans were still able to build a magnificent structure, of knowledge and explanations, which, as mentioned above, is denoted as Science which is still an ongoing endeavor, which continuously expands, reveals and explains more and more secrets embedded in the Existence.However, the nowadays Physics, which is the branch of Science which specifically focuses on understanding and explaining the Existence, is still composed of branches which are not fully compatible.One of these branches is the branch denoted as the Classic Physics, which focuses on understanding and explaining what is denoted as the Macroscopic Environment.Another such branch is the branch denoted as the Quantum Physics, which focuses on understanding and explaining what is denoted as the Microscopic Environment.And, as presented above, these two branches of Physics are not fully compatible, and Humans are still struggling, to expand the knowledge that might bridge the gap that still exists between these two branches of Physics.Moreover, even the branch of the Classic Physics itself, still embeds branches which are also not fully compatible, as for example, the Gravity and the Electromagnetism, and more must be done to bridge the gap that exists also between these two branches, which both belong, as stated above, to the branch of the Classic Physics.In the process of building the above-mentioned magnificent structure of Science, Humans detected in the Existence various components, and denoted these components as Entities, and used these Entities as the building blocks on which the Science of Physics was constructed.Two such Entities are the Entity of Space and the Entity of Time, which together were interweaved into one Entity, denoted as Einstein's four-dimensional Interwoven Space-Time Entity, by the Relativity Theories of Einstein.The branch of Classic Physics relates to the four-dimensional Interwoven Space-Time Entity as a real component, that really exists in the environment, or the Existence.Moreover, the branch of Classic Physics states that the environment embeds just one single four-dimensional Interwoven Space-Time Entity which is a real component of the environment, that really exists in the environment.However, this paper argues, that the branch of Quantum Physics, might also imply that the above-mentioned four-dimensional Interwoven Space-Time Entity might not be a component that really exists in the environment, or the Existence.Moreover, this paper also argues, that although the nowadays branch of Classic Physics does state that the four-dimensional Interwoven Space-Time Entity is a real existing Entity, a contrary conclusion can be also derived, a conclusion that the four-dimensional Interwoven Space-Time Entity might not be a component that really exists in the environment, or the Existence, and that contrary conclusion can be also derived from arguments based only on the nowadays Classic Physics.Thus, if it can be concluded that arguments based only on the Classic Physics might imply that the four-dimensional Interwoven Space-Time Entity does not really exists in the Existence, a conclusion which might be also in line, and compatible, with what the Quantum Physics also implies, then, by abandoning the conclusion that the four-dimensional Interwoven Space-Time Entity is a component that really exists in the environment, and by validating the assumption that the four-dimensional Interwoven Space-Time Entity might be only a facet or an attribute of another component of the Existence, which the Science of Physics denotes as Energy, this might provide also a lead for starting some bridging between the Classic Physics and the Quantum Physics, which, as already stated above, are still significantly incompatible.
Category: Relativity and Cosmology

The Spacetime Importance of the Neutron and Simple, Precise Calculation of the Energy Levels and Lifetimes of the Neutron and Deuteron 2H Using Natural Constants

Authors: Taiwei Song
Comments: 3 Pages.

Based on the Geometry of Spacetime Structures, this short paper briefly argues the importance of the neutron in the creation of natural spacetime. It also uses only the most fundamental natural constants to simply and precisely derive and calculate the energy levels and lifetimes of the neutron and deuteron 2H.
Category: High Energy Particle Physics

The Logic of Pi's Irrationality

Authors: Timothy Jones
Comments: 2 Pages. (Note by viXra Admin: Please cite listed scientific references)

The point on a unit circle that is associated with the arc Pi/2 is (0,1). We prove the bidirectional: every ordered pair of positive real numbers (a,b) corresponds to a point on the circumference of a circle of radius square root of a^2+b^2 with an associated radius with an arc length less than Pi/2. If Pi/2 is rational this gives a contradiction.
Category: Number Theory

Globoeconomics

Authors: N. S. Alsaud
Comments: 7 Pages.

The theatrical framework of globoeconomics is introduced in this paper as a global generalization of the economical analysis. This coherent treatment scientifically explains many perplexing economical, political and societal phenomena which necessitates rereading the historical development of humankind from novel perspective. Since the approaches used in this treatment provide more plausible and simpler justifications, they are suitable to be adopted based on the philosophical reasoning of Occam's razor.
Category: Economics and Finance

Calculate Universe 4 — Minimalistic Approach

Authors: Branko Zivlak
Comments: 3 Pages. 2 Tables (Note by viXra Admin: An abstract in the article is required)

Formulas are presented that connect known parameters in various fields of physics, thanks to the original concept and the Theory of Ruđer Bošković.
Category: Classical Physics

Nolekson Model: Derivation of Fundamental Constants from CMB Parameters and Jupiter's Perihelion

Authors: Victor Victorovich Oleksenko
Comments: 19 Pages. In Russian

This work presents a new physical paradigm based on the recognition of the substance "Nolekson" (Nl) — an inert gas occupying the 0-th position in the 0-th period of D.I. Mendeleev’s periodic table of chemical elements [1]. This is a quantum stationary cosmological model in which cosmic microwave background (CMB) photons and all particles are interpreted as vortex excitations (tori) in the Nolekson medium — an ultra relativistic gas filling all space [2, 3]. The mass of any particle or photon has the dimension of area [4, 5, 6] (kg = m^2), which resolves dimensional paradoxes and allows the Hubble constant (H_0) to be expressed via Planck constants. Precise relations are obtained linking the CMB temperature (T_CMB), Lorentz factors (γ ∼ 9×10^14 and γ^1 ∼ 7×10^14), the mean free path of noleksinos (L_nl — which is close to the perihelion of Jupiter, accounting for the barycenter, [3]) and the gravitational constant (G).
Category: Quantum Gravity and String Theory

Non-Closure of Doubling Vesica Chains: A Constructive Proof of Irreducible Remainder in Self-Similar Geometric Expansion

Authors: Patrick Nod Glavin
Comments: 7 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We present a constructive geometric proof demonstrating that a chain of Vesica Piscis figures following a doubling rule (R, 2R, 4R, u2026, 2n—1R) cannot be enclosed by a Vesica of radius 2nR that closes at the chain’s origin. The linear extent of n doubling iterations sums to 2n — 1, producing an irreducible remainder of exactly one base unit R. This remainder is invariant across all scales of the construction and cannot be eliminated by further iteration. We show that this non-closure property originates at the unit construction itself: the radius R, which generates the Vesica, cannot be consumed by the figure it produces. The result is established through direct lattice construction without appeal to limiting processes or infinite series. We discuss connections to self-similar fractal structures, aperiodic tilings, and renormalizationgroup theory. The construction arises from Geosectometry, a geometric framework developedby the author for investigating natural-state properties of constructive geometry.
Category: Topology

Motion of Bodies in an Energy Medium: A New Model of Gravity, Orbital Precession, and Cosmological Phenomena

Authors: Viktor Strohm
Comments: 5 Pages. (Note by viXra Admin: Please cite scientific references of other authors)

A mechanical model of gravity is proposed within the framework of an energy medium, in which every body continuously absorbs energy, creating a sphere of reduced energy density around itself. The pressure gradient of this medium generates a force that exactly reproduces Newton’s law for an appropriate choice of coefficient. The model naturally explains capture into elliptical orbits, perihelion precession (through violation of additivity of density in the region of overlapping spheres — "synergy"), and provides a physical interpretation of gravitational redshift/blueshift, cosmological redshift, the Hubble constant, and the negative result of the Michelson—Morley experiment. Analytical and numerical formulas for calculating trajectories, including precessing rosettes, have been obtained.
Category: Astrophysics

Regularized Gamma—Bernoulli Identities for the Riemann Zeta Function and a Conditional Critical-Line Criterion

Authors: Payam Danesh
Comments: 19 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

A Gamma—Bernoulli approach to the critical-line problem for the Riemann zeta function is developed. Starting from the Mellin—theta representation and the functional equation, one obtains explicit identities for the reflected Gamma quotient and for the regularization built into the Weierstrass product for Γ. On the Bernoulli side, the kernel (eu − 1)−1 is decomposed into its singular part and an analytic remainder, which yields a concrete zero-conditioned identity after continuation. The analysis shows that the harmonic divergence visible in raw finite Gamma products is a truncation phenomenon and therefore cannot by itself force Re(ρ) = 1/2. What remains is a coercive estimate which, if established, would convert the same mechanism into a critical-line theorem.
Category: Number Theory

The Quadripartite Classification of Triangles: A Unified Geometric and Numerical Field.

Authors: Jean-Yves Boulay
Comments: 12 Pages. (Note by viXra Admin: Please cite scientific references of other authors)

Grounded in a novel mathematical framework, this study demonstrates that any Euclidean triangle can be uniquely categorized into one of four canonical classes based on the intersection of isosceles and right-angled characteristics. We prove that these four classes form a complementary entanglement capable of saturating a rectangular space without voids. Furthermore, this geometric configuration is shown to be isomorphic with specific numerical assemblies in number theory, establishing a direct link between the fundamental sequence of whole numbers and the stability of geometric structures.
Category: Geometry

Achieving Ultra High Resolution Lithography via Intrinsic Equilibrium and Electron Driven Spin Resonance

Authors: Wim Vegt
Comments: 40 Pages.

This paper introduces Localized Intrinsic Field Equilibrium (LIFE), a unified field mechanical framework which posits that the photon is not merely a propagating wave, but a discrete electromagnetic wave packet maintained in dynamic equilibrium. Within this framework, field confinement is anisotropic: the electromagnetic forces maintaining equilibrium differ in the transverse and longitudinal planes. Consequently, the effective electromagnetic mass of the photon behaves as a vector quantity, dependent on the direction of propagation and external field interaction.Leveraging this framework, we propose a novel method for achieving ultra-high resolution photolithography by applying Electric Dipole Spin Resonance (EDSR) to bulk optical materials. While EDSR is traditionally utilized in quantum computing for single-electron spin manipulation, we demonstrate its application in a macroscopic "bulk" capacity to induce resonant light-matter coupling within a Sodium Chloride (NaCl) crystal lens at cryogenic temperatures. By driving the crystal lattice into a strong electromagnetic resonance, we alter the dispersion relation of the medium, creating a "Slow Light" regime where the propagation speed of light is reduced by a factor of 10 (v ≈ c/10).This massive deceleration results in a surge of the effective refractive index (n ≈ 10), which compresses the wavelength of standard red laser source light (650 nm) to an effective wavelength of 65 nm inside the lens. This hyper-refractive state allows the integrated lens to function as a solid immersion system with significantly enhanced optical power, projecting a demagnified image onto a silicon wafer 10 times smaller than the diffraction limit would normally permit. This approach offers a pathway to advanced integrated circuit scaling by achieving Extreme Ultraviolet (EUV)-class2resolution using standard optical frequencies, thereby bypassing the complexity and energy costs associated with high-energy photon sources.
Category: Quantum Gravity and String Theory

A Unified Force Density Framework for Plasma Confinement: Integrating Navier-Stokes with Local Interaction Field Equilibrium (LIFE)

Authors: Wim Vegt
Comments: 47 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

Achieving stable magnetic confinement in nuclear fusion plasmas remains a profound theoretical and engineering challenge. Fundamentally, plasma confinement is a problem of macroscopic force density equilibrium. However, standard Magnetohydrodynamic (MHD) models treat mechanical fluid dynamics and electrodynamics as coupled but distinct systems, often relying on fragmented approximations that struggle to predict complex plasma instabilities.This paper introduces a unified theoretical framework that seamlessly integrates the mechanical fluid dynamics of the Navier-Stokes equations (governing mechanical pressure and fluid velocity) with the Local Interaction Field Equilibrium (LIFE) theory. By strictly expressing all physical interactions—including mechanical pressure, radiation pressure, electromagnetic field tensors, inertia, and gravitational coupling—in identical dimensions of force density (N/m3), we derive a single, continuous equilibrium field equation.This exact dimensional consistency eliminates the mathematical boundaries between the material plasma (Deuterium infusion) and the energetic confinement fields (microwave heating and magnetic containment). The resulting unified N/m3 equation provides a novel, rigorous analytical foundation for understanding high-energy plasma dynamics, offering new predictive pathways for mitigating instabilities in Tokamak and stellarator confinement systems.
Category: High Energy Particle Physics

A New Method for the Cubic Polynomial Equation

Authors: Jose Risomar Sousa
Comments: 4 Pages.

I present a method to solve the general cubic polynomial equation based on six years of research that started when, in the fifth grade, I first learned of Bhaskara's formula for the quadratic equation. I was fascinated by Bhaskara's formula and naively thought I could replicate his method for the third degree equation, but only succeeded after countless failed attempts. The solution involves a simple transformation to form a cube and which, by chance, happens to reduce the degree of the equation from three to two (which seems to be the case of all polynomial equations that admit solutions by means of radicals).
Category: Algebra

'show me the Mind of God', Said Einstein, so Let’s do it

Authors: Carl Littmann
Comments: 5 Pages. (Note by viXra Admin: Please cite and list scientific references)

Einstein, is likely one example of a few who asked, "Why is the universe, fundamentally, the way it is, instead of other possibilities we can imagine?" For example, "Why don’t we have a universe of solely empty space, i.e., all nothingness, total ‘void’, with no matter nor energy in it, instead of our universe with some mass?" Finding good answers may seem impossible, but let’s attack such problems creatively. Regarding the above question, for example, we note that the opposite of a ‘totally void universe’ is a ‘fully-filled universe’. But the ‘fully-filled’ option drags along with it, a huge load of other questions, possibilities, and problems to be worked out. Thus, perhaps those many other questions and issues, dragged along with it, is the main ‘reason’ why we have a universe with ’gross’ mass occupying only a very low fraction of all space, (i.e., only 10 to the minus 19 power, or less). But still, some fraction of space, indeed! So, below we formally present our analytic method, involving comparing different possibilities and their merits. And give examples of that. And we conclude, that "God did not ‘play dice’, so-to-speak, when ‘choosing our universe’."
Category: Relativity and Cosmology

A Synchronisation-Free Experiment to Test the One-Way Isotropy of Light Speed

Authors: Floriano R. Pohlmann
Comments: 8 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We propose an experiment to test whether the one-way speed of light is isotropic, without relying on clock synchronisation between separated stations. Two identical stations separated by a fixed distance exchange laser beams through complementary shutters driven by independent atomic clocks. The phase relationship between the two stations' light maxima directly encodes any asymmetry in one-way light speed. No synchronisation signal is required and the measurement is not circular. Relative clock drift between stations is monitored by observing whether the inter-station timestamp offset remains constant over the measurement interval. This offset is not interpreted as a one-way propagation time and does not constitute a synchronisation convention -- it serves solely as a stability diagnostic. The known frequency precision of atomic clocks, combined with regular monitoring of this offset, provides sufficient warranty of system integrity. The experiment is sensitive to any preferred-frame velocity component along the baseline. The true velocity of the apparatus through such a frame -- if one exists -- is unknown. Earth's orbital velocity of approximately 30 km/s is a lower bound only; contributions from the motion of the solar system and galaxy relative to other astronomical reference points could raise the true figure substantially. A null result would constrain preferred-frame theories. A non-null result would warrant careful independent replication.
Category: Relativity and Cosmology

Numerical Study of Anharmonic Oscillator Using Python Code

Authors: Sahebabegum Pathan, Naveen K. Singh
Comments: 15 Pages.

In this work, we explore the python code to study the anharmonic oscillator. In obtaining the numerical solution for eigenvalues and eigen-functions, we discretize the spatial coordinates into the finite number of grid points and use the finite difference method. We observe that the effect of anharmonic term in hamiltonian in shifting energy level increases towards higher energy states. We compare eigen functions for ground, first excited and second excited state of the harmonic oscillator with anharmonic oscillator. Further, the corrected wave-functions using first order perturbationtheory are compared with wave-functions obtained from the numerical solutions of Schrodinger’s equations. The numerical Python code shows consistency of first order perturbation theory for the small value of anharmonic term.
Category: Quantum Physics

A Stronger Generalization of the Riemann Functional Equation

Authors: Jose Risomar Sousa
Comments: 12 Pages.

A generalization of the Riemann functional equation with a broader validity domain than the one available in the literature is introduced. The insight that led to this new relation came from a new formula for the zeta function created herein that implies the Riemann functional equation. A few minor developments that stem from new formulae introduced previously are also discussed.
Category: Number Theory

Energy Conservation Equation of Gravitational Retardation Potential Force

Authors: Xianxiang Duan
Comments: 3 Pages.

Following the analogy with the Feynman electromagnetic retardation potential formula,it is necessary to derive the energy conservation equation, which requires the concept of "repulsion." The four equilibrium forces governing Mercury's orbit consist of gravity, mass fieldforce, centripetal force, and another force; integrating this formula yields the energyconservation equation.
Category: Relativity and Cosmology

Explanation of Time Dilation in a GPS Satellite Without Using the Relativity Theor

Authors: Jorma Jormakka
Comments: 8 Pages.

In relativity theory the advance of an atomic clock in a GPS satellite of some38 microseconds in 24 hours is explained by time dilation because of velocity from the Special Relativity Theory and time dilation in a gravitational field from the General Relativity Theory. The article shows that the time advance of a GPS satellite can be explained without any relativity theory and the formulas are in the first order the same as inthe relativity theory. It is also shown that the calculation of the GPS clock advance from the relativity theory is incorrectly made: in relativity theory there is the equivalence principle and because of it, the time dilation caused by acceleration due to the curved orbitmust be included. When it is included, the clock advance is incorrect. It is also shown thatEinstein's 1907 calculation of the gravitational redshift is incorrectly made, though theresult is correct.
Category: Relativity and Cosmology

On a Converging Infinite Series Defined by Super-Exponentials

Authors: Rusin Danilo Olegovich
Comments: 5 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We introduce and study the entire function $lambda(s) = sum_{n=1}^{infty} n^{s+1/2}/n^n$,defined by a Dirichlet-type series with super-exponential coefficients. We prove that$lambda(s)$ converges absolutely for all $s in mathbb{C}$, uniformly on compact sets,and is therefore an entire function of order zero. We establish a closed-form evaluationof the special value $lambda(-1/2) = int_0^1 x^{-x}, dx$, connecting $lambda$ to theclassical Sophomore's Dream identity of Bernoulli. We further prove that $lambda(s)$ isterm-by-term differentiable, with $lambda^{(k)}(s) = sum_{n=1}^{infty} (ln n)^k n^{s+1/2}/n^n$for all $k geq 0$, justified by the Weierstrass $M$-test. Finally, we propose a conjectureconnecting $lambda(s)$ to the Riemann zeta function.
Category: Number Theory

Perceived Downward Acceleration of Objects

Authors: Matt Guiney
Comments: 10 Pages.

Based on numerous physical experiments that can easily be performed by anyone, the arrangement of different matter of varying densities which are contained in a vessel are always arranged in a particular order when a force is applied to that vessel and that vessel is put into motion. The direction of the motion dictates the density gradient orientation. Based on other experiments it is also apparent that this arrangement of matter (based on density and dependent on the direction of motion) ceases when objects are in free fall. This would imply that when objects are in free fall there is no force present that is responsible for the apparent downward motion of objects, but rather the reference frame (earth) is moving upwards to meet the objects. This concept is explored (the upwards motion of the earth) and calculations are performed to understand how we (standing on earth) can perceive a downward acceleration (g) of objects in free fall if the earth is in motion upwards. Other concepts regarding the motion of the earth are also discussed.
Category: Relativity and Cosmology

Telomeres and Longevity

Authors: Clark M. Thomas
Comments: 7 Pages.

Telomeres in humans are caps at the two ends of chromosomes that largely determine our normal life expectancy. Chromosomal senescence typically approaches before our death, and no amount of botox can stop it. Interestingly, some people live longer than their seventies, with delayed senescence. Even though quality of life is more important than quantity, most of us want both quality and quantity, with minimal time spent in senescence. To what degree could this optimum be under our control? If we all could approach seeming immortality, what could that life extension mean for our individual and social lives?
Category: General Science and Philosophy

Quadrature Approximation to the Magnus Exponent for Numerical Solution of Non-Autonomous Coupled Linear Differential Equations

Authors: Kenneth C. Johnson
Comments: 14 Pages.

The Magnus-exponent method of solving non-autonomous (variable-coefficient) coupled linear differential equations is reviewed, and three quadrature approximation formulas are derived with residual errors proportional to the 3rd, 5th, and 7th power of the integration interval size.
Category: Functions and Analysis

Decreasing Universe Theory: Cosmological Time Dilation and the SN1A Explosion

Authors: Joao Carlos Holland De Barcellos
Comments: 16 Pages.

We will show that, within the "Decreasing Universe Theory" (DUT), time inside a gravitational field isaltered in the same way as spatial distance measurement scales. At the cosmic level (timescales of millions of years), this effect becomes perceptible and explains the variation in the measured duration of Type Ia Supernova (SN1A) explosions.
Category: Relativity and Cosmology

Euler Product-Power Series Representation of the Dirichlet Eta Function

Authors: Ryan Hackbarth
Comments: 4 Pages.

In this paper, I demonstrate how the Dirichlet Eta function may be represented as a sum of its fundamental frequencies through the use of a power series whose coefficients are the Euler Product representation of the Riemann Zeta function.
Category: Number Theory

DeepSlide: From Artifacts to Presentation Delivery

Authors: Ming Yang, Zhiwei Zhang, Jiahang Li, Haoseng Liu, Yuzheng Cai, Weiguo Zheng
Comments: 37 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

Presentations are a primary medium for scholarly communication, yet most AI slide generatorsoptimize the artifact (a visually plausible deck) while under-optimizing the delivery process (pacing, narrative, and presentation preparation). We present DeepSlide, a human-in-the-loop multi-agent system that supports preparing the full presentation process, from requirement elicitation and time-budgeted narrative planning, to evidence-grounded slide—script generation, attention augmentation,and rehearsal support. DeepSlide integrates (i) a controllable logical-chain planner with per-node timebudgets, (ii) a lightweight content-tree retriever for grounding, (iii) Markov-style sequential rendering with style inheritance, and (iv) sandboxed execution with minimal repair to ensure renderability. We further introduce a dual-scoreboard benchmark that cleanly separates static artifact quality from dynamic delivery excellence. Across 20 domains and diverse audience profiles, DeepSlide matches strong baselines on artifact quality while consistently achieving larger gains on delivery metrics,improving narrative flow, pacing precision, and slide—script synergy with clearer attention guidance.
Category: Artificial Intelligence

The Non-Existence of Non-Trivial Periodic Orbitsin the Collatz Mapping

Authors: Xiaofeng Hu
Comments: 6 Pages. (Note by viXra Admin: Please cite and list scientific reference and submit article written with AI assistance to ai.viXra.org)

The Collatz conjecture states that for any given positive integer N,if N is even, divide it by 2; if N is odd, multiply it by 3 and add 1.Repeating this process,N will eventually become 1. This paper provesthat any positive odd integer O other than 1 cannot return to itself nomatter how many times the iteration is performed. We derive the generalformula satisfying this condition and rigorously prove by mathematicalinduction that this formula equals 1 uniquely in the set of positive oddintegers. We thus conclude that there are no non-trivial periodic orbitsin the Collatz mapping.
Category: Number Theory

A Paradoxical Increase in the Center of Mass Momentum of a Three Body System due to an Unknown External Impulse

Authors: Paul Robert Mesler
Comments: 16 Pages. (Note by viXra Admin: Please cite and list scientific reference and submit article written with AI assistance to ai.viXra.org)

Euler’s first law states that only external impulses can increase the center of mass momentum of a multi-body system. However, after 30 test trials the mean value of known external friction impulses acting on a three-body system accounted for only ~ 8.2 per cent (standard deviation .037 and standard error .0068) of the increase in the final momentum of the system, leaving a ~ 91.8 per cent discrepancy. The three-body system consisted of two spheres, constrained to roll around quarter-circle barriers attached to a third body. As the spheres rounded the curves, centripetal contact forces acted on the spheres while equal and opposite centrifugal reactive contact forces acted on the inner walls of the curved barriers. These centrifugal reactive contact forces caused the system to accelerate, inducing an unknown external impulse that increased the `orbital angular speed of the spheres with respect to our laboratory inertial frame. We derive a general impulse equation that demonstrates how the impulse history of centrifugal reactive contact forces couples to the increase in angular speed of the spheres due to this unknown external impulse and how this couples to the increase in momentum of the system. We suggest that more rigorous experiments in friction-free environments be conducted to see if the increase in momentum persists after all external friction impulses are removed which may shed light on the nature of the unknown external impulse.
Category: Classical Physics

Reducing Credit Assignment Variance via Counterfactual Reasoning Paths

Authors: Fei Ding, Yongkang Zhang, Yeling Peng, Youwei Wang, Guoxiong Zhou, Zijian Zeng
Comments: 8 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

Reinforcement learning for multi-step reasoning with large language models (LLMs) often relies on sparse terminal rewards, leading to poor credit assignment conditions where the final feedback is evenly propagated across all intermediate decisions. This results in high gradient variance, unstable training, and numerous ineffective updates, ultimately causing the model to fail and preventing sustained improvement. We introduce a counterfactual comparison-based credit assignment framework, which samples multiple reasoning trajectories under the same input. By treating their differences as an implicit approximation of alternative decisions, we construct an implicit process-level advantage estimator that transforms sparse terminal rewards into step-sensitive learning signals. Based on this, we propose Implicit Behavior Policy Optimization (IBPO), which significantly improves training stability and performance upper bounds on mathematical and code reasoning benchmarks, pointing to a promising direction for unlocking the performance potential of LLMs.
Category: Artificial Intelligence

Design Conditions for Intra-Group Learning of Sequence-Level Rewards: Token Gradient Cancellation

Authors: Fei Ding, Yongkang Zhang, Youwei Wang, Zijian Zeng
Comments: 8 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

In sparse termination rewards, intra-group comparisons have become the dominant paradigm for fine-tuning reasoning models via reinforcement learning. However, long-term training often leads to issues like ineffective update accumulation (learning tax), solution probability drift, and entropy collapse. This paper presents a necessary condition for algorithm design from a token-level credit assignment perspective: to prevent reward-irrelevant drift, intra-group objectives must maintain gradient exchangeability across token updates, enabling gradient cancellation on weak-credit/high-frequency tokens. We show that two common mechanisms disrupting exchangeability make "non-cancellation" a structural norm. Based on this, we propose minimal intra-group transformations to restore or approximate the cancellation structure in the shared token space. Experimental results demonstrate that these transformations stabilize training, improve sample efficiency, and enhance final performance, validating the value of this design condition.
Category: Artificial Intelligence

Flow-Oriented Programming and XF: A Preliminary Synthesis of Paradigm, Design, and Evaluation

Authors: Jay Kumar
Comments: 7 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

Modern data processing increasingly relies on workflows centered on filtering, transforming, aggregating, and routing structured data, yet mainstream programming paradigms do not always treat explicit data flow and composable transformation as primary computational concerns. This paper synthesizes three related lines of inquiry: the conceptual formulation of Flow-Oriented Programming (FLOP), the design and implementation of XF as an experimental realization of that model, and the empirical evaluation of XF across representative data-oriented workloads. Through this synthesis,the paper examines the historical development of programming languages and paradigms through the lens of composability, abstraction, and data transformation, and positions flow-oriented programmingas a data-first model centered on explicit transformation pipelines. XF is then considered as a practical implementation of this model, emphasizing composable operations, decentralized control flow, and explicit value-state semantics. Benchmark results across CSV aggregation, transformation pipelines, pattern processing, and concurrency scaling suggest that while XF does not yet match the raw performance of mature language ecosystems, it demonstrates that flow-oriented programming is both expressively coherent and practically implementable as a distinct approach to data-intensive computation.
Category: Data Structures and Algorithms

An Experiment Proposal Testing ‘spooky Action at a Distance’

Authors: Xianming Meng
Comments: 13 Pages.

The results of numerous Bell tests are viewed as evidence of quantum entanglement: the instant inner connection between totally separated entangled particles, which explains the ‘spooky action at a distance’, a term coiled by Einstein. The paper proposes a variation to Bell tests, aiming to prove or disprove spooky action from a distance. The main variation is an added pair of half-waveplates, with which we can change the relative polarization angle of the entangled photon pairs and assess its impact. The paper has derived the quantum prediction of Bell tests due to the changes in both the relative polarization angle of the entangled photon pairs and in the relative angle of the polarization measurement devices. If the quantum prediction is proven correct by experiments, the claim of instant inner connection between entangled particles or spooky action from a distance must be false.
Category: Quantum Physics

How to Comprehend the Unphysical Quantum Superposition and Entanglement

Authors: Xianming Meng
Comments: 11 Pages.

The concepts of quantum superposition and entanglement are at the heart of quantum mechanics, but they often cause confusion. This paper shows that the concepts are intimately related to quantum coherence. Through examining the traditional arguments, the paper reveals that the essence of quantum superposition is a statistical superposition of coherent states, while quantum entanglement results from the coherence of entangled particles as well as the common rule governing the measurements.
Category: Quantum Physics

A Classical Mechanics Solution to Zeno's Arrow Paradox

Authors: Vladislav Smolenskij
Comments: 3 Pages. (Note by viXra Admin: Please cite and list scientific references)

The flying arrow paradox states that motion is impossible, as the arrow is motionless at every instant of time. Although the paradox has a mathematical solution, a physical uncertainty remains: is time continuous, or does it consist of numerous infinitesimally small intervals? Within the framework of classical mechanics, it is shown that the assumption of instantaneous rest (zero velocity at any moment) inevitably violates the laws of conservation of momentum and kinetic energy. A flying arrow cannot stop or resume its motion without external input. Consequently, the arrow cannot be "at rest" within an infinitesimally small interval of time, and/or time does not contain any "zeros" and flows continuously.
Category: Classical Physics

Remarks on Vibrational Interpretations of the Schrödinger Equation

Authors: Martin Kraus
Comments: 8 Pages.

While the Schrödinger equation is one of the most important equations in physics, its interpretation is still being debated even one hundred years after its original publication. After summarizing Schrödinger's vibrational interpretations, this work remarks on three specific features that might be of particular interest for the development of future vibrational interpretations.
Category: History and Philosophy of Physics

On the Iterative Convergence of Fermat Numbers Through Continued Fractions

Authors: S. Mayank
Comments: 3 Pages. (Note by viXra Admin: Please cite and list scientific references)

This paper presents a novel iterative representation of Fermat numbers, defined by the sequence Fn = 2^(2^n) + 1. By leveraging the fundamental recurrence relation F(n+1) - 2 = Fn(Fn - 2), we define a functional equation x = A/x - 2, where A = F(n+1) - 2. We demonstrate that this equation yields two integer solutions, x1 = Fn - 2 and x2 = -Fn. Through an analysis of the derivative of the map f(x) = A/x - 2, we prove that x = -Fn is an attractive fixed point and x = Fn - 2 is a repulsive fixed point, leading to a unique, convergent infinite continued fraction for the negative of any Fermat number. This provides a bridge between the rapid growth of Fermat sequences and the stability of iterative rational functions.
Category: Number Theory

The Twin Paradox Explained With the Acceleration

Authors: Leonardo Rubino
Comments: 8 Pages. In English and English (Note by viXra Admin: Please cite and list scientific references)

The Twin Paradox [is] Explained With the Acceleration.
Category: Relativity and Cosmology

Multiverse Idea in Cosmology

Authors: Kiyoung Kim
Comments: 7 Pages.

From the perspective of objective natural philosophy, cosmology should adopt a broader view consistent with nature's fundamental properties, such as continuity and cyclicity. It should move beyond the claim that the entire universe originated from a single event—an explosion of pure energy—that birthed time and space solely within the framework of general relativity. Such a shift suggests that our universe may be one of many, each following its own life cycle. We first review dark energy—long a subject of debate regarding its true nature and role in the universe's accelerating expansion—and explain how this expansion is possible within a 4-D complex space model. Additionally, we review the second law of thermodynamics to explain how the entropy of a cyclic universe evolves.
Category: History and Philosophy of Physics

Strictly Isolated Prime Constellations at Offsets {0, 8, 14, 18, 24, 32} and Their Associated Composite Pairs

Authors: Christoper Mututu
Comments: 13 Pages. (Note by viXra Admin: For the last time, please cite and list scientific references)

We introduce a deterministic construction for generating composite number pairs (A,B) from strictly isolated prime sextets, configurations of exactly six primes situated at fixed offsets {0,8,14,18,24,32} from a base value a≡9 (mod 10) with no additional prime existing anywhere within the interval [a,a+32]. We term such configurations strictly isolated prime constellations of order six.The structural constraint a≡9 (mod 10) forces the six primes to terminate in the digit pattern 9,7,3,7,3,1 respectively which is a consequence of the fixed offsets modulo 10. These six primes are arranged into a 2×4 rectangle whose columns are indexed by the digits {1,3,7,9}, the complete set of possible terminal digits of any prime greater than 5. Column wise addition and subtraction yield a Sums row and a Difference row from which the composite A and B are defined by their respective totals.We prove that this construction satisfies four universal invariants. First, the closed form identities A=6a+96 and B=2a+52 hold for every valid cluster. Second, A is always divisible by 1,2,3,5 and 6 while B is always divisible by 1,2,5 and 10, both following algebraically from a≡9 (mod 10). Third, the decimal expansion of A/B always carries a signature 2.9u2026 and B/A always carries initial signature 0.3u2026 for all a≥274 proven via closed form analysis. Fourth, both A/B and B/A always produce non terminating repeating decimal expansions guaranteed by the arithmetic structures of the reduced denominators.These four invariants are established algebraically and confirmed computationally across 17,138 valid clusters up to 100 billion with zero failures on every claim.
Category: Number Theory

The Existence of Hilbert-Pólya Operator

Authors: Amal Ladjeroud
Comments: 10 Pages.

Hilbert-Pólya conjecture is proved by constructing Hilbert-Pólya operator, the self-adjoint operatorwhere its eigenvalues are exactly the imaginary parts of zeros of Riemann zeta function on the critical line. Hence, the Riemann hypothesis is true.
Category: Number Theory

Proof of Collatz Conjecture

Authors: Pranshu Tripathi
Comments: 3 Pages. (Note by viXra Admin: Please cite and list scientific references)

The collatz conjecture was introduced by Lothar collatz in 1937. It is also known as "3n + 1 problem". The conjecture states: Start from any positive integer, n. If n is even, divide by 2; if n is odd, multiply by 3 and add 1. Now, the conjecture says that if you keep repeating above steps, you will finally reach 1, no matter what value of n we choose. In this paper, we prove collatz conjecture using method of mathematical induction. We also use binary and trenary numbers to prove collatz conjecture.
Category: Number Theory

Lack of Cosmological Expansion Versus the Hubble Crisis

Authors: Michael A. Ivanov
Comments: 6 Pages.

Based on the low-energy quantum gravity model, it is shown that the overestimation of the Planck constant at small z, characteristicof the ΛCDMcosmological model, can be eliminated using a two parameter luminosity distance function that takes into account the change in the number of photons. This new function was fitted to a similar function in the ΛCDM model, which best describes observations. Estimates were obtained for the light attenuation parameter, which replaces the effect of dark energy, and for the Hubble constant in the new model without cosmological expansion. Such a resolution of the Hubble crisis could cause a serious conceptual crisis in moderncosmology.
Category: Quantum Gravity and String Theory

Verification Experiment of the "Electromagnetic Wave" Theory Based on a Half-Wave Dipole Dual-Antenna Pair

Authors: Hongyuan Ye
Comments: 15 Pages. (Note by ai.viXra.org Admin: Author name is required in the article after article title; and please cite and list scientific references)

Maxwell's equations theoretically introduce the hypothesis of "displacement current", stating that in a vacuum, a changing electric field can induce a changing magnetic field. Based on this, Maxwell predicted the existence of "electromagnetic waves" in a vacuum. The latest research indicates that the theory of "electromagnetic waves" has never been experimentally verified. The experiment conducted by German physicist Hertz in 1887 did not prove the existence of "electromagnetic waves" but rather demonstrated that wireless communication could be achieved by independent "electric field waves". Further research reveals that the hypothesis of "displacement current" is theoretically inconsistent. The simplest and most convincing way to verify the correctness of Maxwell's "electromagnetic wave" theory is to independently measure the electric field intensity and magnetic field intensity of electromagnetic radiation in wireless communication, and then determine through experiments whether the electric field energy density is equal to the magnetic field energy density. This verification experiment is based on the 3-meter method of EMC electromagnetic compatibility standards. A half-wave dipole dual-antenna configuration with reverse attenuation is used to cancel out the magnetic fields generated by the conduction currents of the two antennas, and the electric field intensity and magnetic induction intensity in the far-field of electromagnetic radiation are independently measured. The verification experiment shows that the electric field energy density is 137.6 times that of the magnetic field energy density, and the experimental result is 137.6 times the theoretical value of the "electromagnetic wave" theory. In this verification experiment, the relative error of the electric field intensity measurement is +/- 5%, and that of the magnetic field intensity measurement is +/- 40%. The experimental results are real and valid. This experiment fully proves that, whether in the near-field or far-field, the electromagnetic fields originate from the conduction current of the antenna. In a vacuum, without the participation of charges, a changing electric field cannot generate a changing magnetic field, and a changing magnetic field cannot generate a changing electric field. "Electromagnetic waves" do not exist in the objective physical world.
Category: Classical Physics

Duality in Physics

Authors: A. V. Kaminsky
Comments: Pages.

We propose an ontological interpretation of quantum mechanics based on the principle of subjective incompleteness—a fundamental limitation arising from the fact that the observer is part of the world being observed. By formalizing consciousness as a set of states Subj and the world as a self-mapping W:Subj→Subj, we construct an ontological configuration space whose structure naturally gives rise to the Hilbert space of quantum states. Within the proposed model, the hidden parameters in the representation of an observable operator are the eigenvalues of its canonical conjugate. In particular, the coordinate and momentum representations complement each other to form a complete ontological description, with the corresponding variables appearing as mutually hidden. From this perspective, the phenomenon of duality in physics, exemplified by pairs such as coordinate—momentum or time—energy, reflects the underlying subject—object structure of reality.The model offers a new justification of Bohr’s principle of complementarity and provides a geometrical account of noncommutativity in terms of subjective incompleteness. Furthermore, the entropic uncertainty relations of Hirschman—Everett are reinterpreted as quantitative measures of subjective incompleteness. This approach links the growth of thermodynamic entropy with the "motion" of the observer’s consciousness along the gradient of ontological states, thereby providing a natural explanation of the thermodynamic arrow of time.Thus, the key features of quantum mechanics emerge from the fundamental principle of subjective incompleteness. This article continues a series of works devoted to the role of the observer and consciousness in physics.
Category: Quantum Physics

Effective Field Dynamics and Quantum Emergence from Intrinsic Oscillations in a Bounded Vacuum

Authors: Tanuj Kumar, Vandana [Doe]
Comments: 16 Pages.

We extend the bounded-vacuum framework introduced in Ref. [1] by incorporating the intrinsic dynamical properties of localized vacuum configurations and deriving a unified effective field equation for the vacuum potential Φ(x,t). In this approach, matter is identified as a localized vacuum loading corresponding to a deficit of the vacuum potential. We show that stable vacuum loading configurations have their own intrinsic degrees of freedom associated with vibrations of definite frequency ω_0; small deviations from the equilibrium satisfy the Klein—Gordon-type equation, so that the dispersion relation gives the known energy-momentum dependence E^2=p^2 c^2+m^2 c^4, where mass originates due to the condition ℏω_0=mc^2. The field equation under discussion includes not only the wave propagation, but the effect of gravity and the restoring force which represents a sort of the vacuum capacity limitation; in such a way we get the unified treatment of the problem of both massive and massless particles. Within the nonrelativistic limit, the theory turns out to be nothing else but the Schrödinger equation with the effective potential associated with fluctuations of the vacuum potential.
Category: Quantum Gravity and String Theory

Definitive Proof of Brocard's Conjecture

Authors: Kenneth A. Watanabe
Comments: 19 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

This paper presents a formal proof of Brocard’s Conjecture, which posits that there are at least four prime numbers between the squares of any two consecutive primes p_i² and p__i+1² for i>1. By defining the function π^*(n) that approximates the prime counting function π(n), we establish a lower bound for the number of primes in these intervals. Using mathematical induction, we demonstrate that the minimum number of primes in the interval, Δπ^*(p_i), is consistently greater than or equal to 4 for all p_i ≥ 3. The proof is further supported by a rigorous error analysis, bounding the maximum possible deviation between the estimated prime count π^*(n) and the actual prime counting function π(n).
Category: Number Theory

Turnover and Catalytic Cycle Frequency Determination based on Molar Mass-dependent Model Equations

Authors: Ikechukwu Iloh Udema
Comments: 23 Pages. [New version of] ChemRxiv via 10.26434/chemrxiv-2023-0sjpl

There were conflicting definitions and misrepresentations of turnover frequency (TOF), catalytic cycle frequency (CCF), and catalytic first-order rate constant (k_cat) in the literature. Based on the Benfield and Lineweaver-Burk methods, data were generated. The results indicated that the CCFs for the forward (~ 0.0025-1.58 exp. (+17)/s) and reverse (~ 0.0003-5.4 exp. (+18)/s) directions showed an increasing trend with higher concentrations of the enzyme; this was applicable to the TOF. The number of fragments per molecule of an enzyme in the forward direction was 0.19-1.23 exp. (+5). In conclusion, TOF and CCF are different parameters, and the former in particular was not the same as k_cat, while the latter was a constant; TOF and CCF vary. Strictly speaking, TOF was equal to f(M_3). Besides, CCF per molecule (> 1) of the enzyme is greater than TOF (< 1). This can be verified using sucrase in a future study; a larger data set is needed if starch is a substrate in order to reevaluate the models and address statistical concerns. PACS: 87.15.RJ; 87.14.ejKeywords: Aspergillus oryzae alpha-amylase; Catalytic cycle frequency; First-order catalytic rate constant; Gelatinized insoluble potato starch; Turnover number; Turnover number frequency.
Category: Biochemistry

A Note on the Structural Cancellation of Fourth-Order Singularities: Implications for Fluid Dynamics and Field Theory

Authors: Daniel Henrique Pereira
Comments: 7 Pages.

A recent work explores the Riemannian geometry of Victoria-Nash Asymmetric Equilibrium (VNAE) manifolds. A fourthu2011order cancellation in the curvature tensor follows from Schwarz's theorem and Riemann antisymmetry. This resolves the higheru2011order complexity that hindered Einstein's nonu2011symmetric field theory. The same mechanism suggests a conceptual parallel with the Navieru2011Stokes regularity problem, though no solution is claimed.
Category: Relativity and Cosmology

Riemannian Manifolds of Asymmetric Equilibria: Complete Geometric Structure and Curvature Signatures

Authors: Daniel Henrique Pereira
Comments: 25 Pages.

We develop the complete Riemannian geometry of Victoria—Nash asymmetric equilibrium manifolds (VNAE) for $n$-player games. The metric (g_{ij} = iota_i iota_j delta_{ij} + varepsilon H_{ij}(V,iota)) yields explicit Levi-Civita connection (Gamma^k_{ij}), Riemann tensor (R^i_{,jkl}) with fourth-order $V$-derivative cancellation, Ricci tensor (R_{ij} approx kappabigl(iota_{i,j} iota_i - kappa partial_i^2 iota_ibigr) delta_{ij}), and scalar curvature (K_s approx sum_{i<j} iota_i iota_j det H_{ij}^s + O(varepsilon^2)). Positive/negative/zero signatures classify stability geometrically. The Lyapunov—Morse functional (mathcal{L}) satisfies (frac{d^2}{dt^2}mathcal{L}big|_{mathrm{VNAE}} approx -2 operatorname{Ric}(dot{s}^perp,dot{s}^perp)) along gradient flows, establishing Ricci curvature as the normal contraction rate. Classical Nash, von Neumann’s minimax theorem, and Lyapunov stability emerge as degenerate flat limits as (varepsilonto0).
Category: Geometry

A General Framework for Hierarchical Ranking of Linear Permutations

Authors: Harish Chandra Rajpoot
Comments: 38 Pages. (Note by viXra Admin: The references are not listed in a standard/complete manner)

A generalized series-based formulation is developed to determine the hierarchical rank of any given linear permutation selected from a set of all possible linear permutations arranged according to a predefined order of priority of elements like digits, letters, and all other objects. The proposed model applies to permutations of words, numbers, and other discrete objects, enabling systematic identification of their positions in an ordered sequence. The formulation is expressed as a finite series in which each term corresponds to a specific element of the permutation. It applies to sets of distinguishable objects characterized by identifiable properties such as shape, size, colour, or surface pattern, assuming that all elements are equally likely to occupy any position in the arrangement without replacement. The model introduces three parameters, Formerity (F), Permuty (P), and Similarity (S), which collectively define the structure of the series. These parameters depend on the preceding elements, the permutations of successive elements, and the repetition characteristics within the arrangement. Notably, the number of terms in the series is equal to the number of elements in the permutation. This generalized formulation provides a structured and scalable approach for analyzing and ranking linear permutations in a wide range of combinatorial contexts.
Category: Algebra

Evidence for a Solar System Origin of 3i/atlas and Related Small Bodies Within World—Universe Cosmology

Authors: Vladimir S. Netchitailo
Comments: 28 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

The object formally designated C/2025 N1 (ATLAS) has been widely discussed as a candidate third interstellar object ("3I/ATLAS") due to its strongly hyperbolic trajectory. In standard celestial mechanics, an interstellar origin is inferred when the original barycentric eccentricity significantly exceeds unity prior to planetary perturbations. This interpretation, however, implicitly assumes that cometary dynamics are governed solely by gravitational forces and conventional outgassing.In this work, we propose an alternative hypothesis: C/2025 N1 (ATLAS) is not interstellar but a Solar System small body originating from the Oort Cloud, consistent with the framework of World—Universe Cosmology (WUC). We argue that its large excess velocity can be explained by a non-gravitational internal acceleration mechanism involving partial conversion of rotational energy of the nucleus into translational kinetic energy.Within WUC, the Universe is structured as a hierarchy of interaction regimes—Macro-world (gravity), Large-world (extremely-weak interaction), Small-world (super-weak interaction), and Micro-world (weak interaction). Previous studies associate Ball Lightning [1] with Solar System Small Body (SB1) and interpret the Tunguska superbolide [2] as an SB2 analogue. Extending this hierarchy, we identify C/2025 N1 (ATLAS) as an SB3 object. This model naturally accounts for its extreme hyperbolic excess velocity without invoking an interstellar origin and leads to specific, testable predictions regarding kinematics, activity, and radiation signatures.We compare these predictions with observations of ʻOumuamua, C/2019 Q4 (Borisov), and a growing population of low-albedo asteroids and "dark comets" exhibiting dust-poor outgassing.
Category: Relativity and Cosmology

Multi-Channel Superconducting Tc from the Kinetic Synchronization Cooper Hamiltonian: Effective Gap-Symmetry Selection, Two-Layer Pseudogap Improvement, and Gap-Ratio Benchmarks Across Multiple Families

Authors: Avyukt Jindal
Comments: 49 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We analyze superconducting critical temperatures, gap symmetries, and gap-ratio benchmarkswithin the Kinetic Synchronization Cooper (KSC) framework, presenting four advances over previoustreatments. (i) Gap symmetry selected within Hmag: A dual Stoner criterion gives ηAFM = U NF Fnest,Fnest = ln(Wband/kBTc). For YBCO: ηAFM = 1.352 > 1 yields d-wave at Q = (π, π), with gap ratiofactor 4.28/3.528 obtained within the KSC Hmag gap equation and consistent with the canonicald-wave value. For flat-band moire graphene: ηFM = 6.94 ≫ 1 favors nodal pairing; related nodalevidence was reported for MATTG by Park et al. (2026), but this is not a direct MATBG confirmation.(ii) Corrected flat-band moire gap benchmark : fflat = 6.36 (not 9.1; ΩD = kBθD/tJ = 0.01438) andρ = 0.034 (not 0.049; factor 0.695 removed). With cflat = 0.077 fixed against the current flat-bandmoire benchmark window spanned by Oh 2021 (MATBG) and Park 2026 (MATTG), KSC gives5.456 at the class-benchmark evaluation point. We therefore treat the moire entry as a class-levelbenchmark rather than an independent MATBG-only validation. (iii) Two-layer pseudogap T ∗:Layer 1 (Tao—Bend fluctuation formula) reduces BaFe2As2 from 58% to 2% and YBCO from 77%to 5.6%. Layer 2 (SDW condensate softening EeffBend = EBend × fmag) further reduces BaFe2As2 to1.3% and YBCO to 5.2% (using correct T ∗exp: 46 K and 130 K respectively). (iv) Per-atom ZPMhierarchy: Oxygen (16 amu) dominates YBCO (2.93× barium); boron (10.8 amu) dominates MgB2(fatm = 1.103). Overall: mean Tc point error 2.0% (0.82σ), mean T ∗ point error 5.9%; gap-ratiopoint deviations are reported as benchmarks rather than uncertainty bars. The compact formulasbelow are therefore best read as an effective closure, not as a complete microscopic derivation ofevery tabulated benchmark value.
Category: Condensed Matter

On Odd Covering Systems with Few Prime Factors

Authors: Idan Hackmon
Comments: 8 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We prove that no covering system with distinct odd moduli can have its least common multiple supported on at most four distinct odd primes (for arbitrary exponents). Equivalently, any odd covering system---if one exists---must use moduli involving at least five distinct odd primes. The proof introduces a weight function method. Moduli are partitioned into prime-power towers and composites; the towers define a "weight region" W in Z/LZ via CRT, and a union bound shows the composites cover at most an R-fraction of W with R = 41/45 < 1 for the worst-case prime set {3,5,7,11}. This leaves at least L/40 integers provably uncovered. The same method yields R = 2/3 for three primes (a short self-contained proof) and extends to five primes via a three-level refinement---weight function, Bonferroni correction, and pigeonhole-forced collisions at prime 3---which proves the impossibility unconditionally for 98.2% of exponent configurations. The remaining 1.8% reduce to a CRT coverage maximality conjecture (NC ≤ 0), for which we provide an analytical proof at k ≤ 3 primes and exhaustive computational verification over 9,000,000+ exact configurations at k = 4 with zero violations.
Category: Number Theory

Operating Principle of an Engine Utilizing the Energy of Absolutely Stationaru Particles

Authors: Yu. E. Zevatskiy
Comments: 4 Pages.

The operating principle of an engine based on utilizing collision impulses of absolutely stationary particles with bodies of galaxies receding from the epicenter of the Big Bang in accordance with Hubble’s law is determined. A method for detecting radiation from absolutely stationary particles and an engine model converting the collision energy of absolutely stationary particles into mechanical work are proposed. This work may serve as a starting point for research that has never been conducted before.
Category: High Energy Particle Physics

A Measure-Theoretic Cosmology: Dark Matter Abundance and Suppressed Growth Without New Particles

Authors: Vladimir Trifonov, Philip V. Trifonov
Comments: 6 pages, 1 figure, no AI assistance

We propose a cosmological framework in which the observable matter content arises from a measure-theoretic structure rather than additional particle species. The construction distinguishes between a metric (Lebesgue-type) measure and an invariant structural (Haar-type) measure. Their interplay leads to a finite dark-matter distribution, a visible matter component localized near a crossover scale, and a predicted abundance ratio $Omega_{m DM}/Omega_b approx 5.4$ without introducing new particles.
Category: Relativity and Cosmology

The Geometry of the King’s Chamber in the Pyramid of Khufu and the Numerical Equality of Area and Perimeter in Right-angled Triangles

Authors: Andrey V. Voron
Comments: 2 Pages.

The article demonstrates the connection between the linear dimensions of the King’s Chamber in the Great Pyramid of Khufu and the dimensions of a unique right-angled triangle, in which the numerical values of the area, the perimeter, and the square of the shorter leg are equal. All dimensions are given in meters.
Category: Archaeology

Hodge Classes

Authors: Bin Wang
Comments: 5 Pages.

We show that on a complex projective manifold $X$, for $mathbb G=mathbb R$ or $mathbb Q$, a class in $H^{p, p}(X;mathbb Z)otimes mathbb G$ is represented by a particular type of an infinite series of subvarieties.
Category: Geometry

Reshaping ESM-2 Representation Geometry for Viral Protein Classification

Authors: Ishir Rao
Comments: 8 Pages.

Distinguishing viral proteins from their human host counterparts is a fundamental challenge in computational virology, with direct implications for gene therapy vector design and antiviral therapeutics. We present a systematic comparison of three classification frameworks on 26,771 SwissProt-reviewed sequences (6,350 viral, 20,421 human): a TF-IDF k-mer Random Forest baseline, a logistic regression probe on frozen ESM-2 embeddings [1], and a supervised contrastive learning (SupCon [2]) projection head trained on those same embeddings. The k-mer baseline achieves84% overall accuracy but fails on viral sequences (recall = 40%), while ESM-2 embeddings alone raise accuracy to 98% and viral recall to 96%, confirming that evolutionary pretraining encodes substantial host—viral discriminative signal without any task-specific supervision. Supervised contrastive fine-tuning further improves overall accuracy to 98.69%and viral F1 to 0.97, but the most consequential gains appear among proteins where biology itself is ambiguous: viral sequences that have evolved human-like surface features to evade immune detection show a disproportionate improvement under contrastive training, with mean classification accuracy on host-mimicry proteins rising from 55.5%(k-mers) to 69.4% (ESM-2) to 96.1% (ESM-2 + SupCon) — a 26.7 percentage-point leap attributable directly to the contrastive objective. Manifold analysis via UMAP confirms that SupCon progressively restructures the embedding geometry over training, tightening intra-class cohesion and widening the inter-class margin in precisely the regions where host and viral proteomes overlap most.
Category: Quantitative Biology

Radion Stabilisation and Phenomenology in Emergent Gravity Models: A Comprehensive Numerical Analysis with LHC Constraints

Authors: Salvatore Minutoli
Comments: 10 Pages.

We present a comprehensive numerical study of the radion stabilisation mechanism within a higher-dimensional emergent gravity framework. Starting from a ten-dimensional construction, we perform a dimensional reduction to an effective four-dimensional theory containing a radion field $phi(x)$ and a set of internal excitation modes $psi(x)$. The effective potential $V_{text{eff}}(phi,psi)$ is derived, featuring competing power-law terms that naturally admit a stable minimum without fine-tuning. By solving the coupled equations of motion numerically, we demonstrate dynamical stability of the vacuum and extract the radion mass. A systematic parameter scan confirms the robustness of the stabilisation mechanism over a wide range of couplings. We confront our predictions with current LHC data from ATLAS and CMS, showing that the predicted radion mass $m_phi sim mathcal{O}(teV)$ lies in a region partially accessible to Run 2 searches, with further discovery potential at the High-Luminosity LHC. Our results provide strong support for the internal consistency of emergent gravity scenarios and offer a clear phenomenological target for future collider experiments.
Category: High Energy Particle Physics

Solution to Einstein's Vacuum Equation With a Large Number of Lambda Terms

Authors: Mikhail Batanov-Gaukhman
Comments: 50 Pages.

It is proposed to increase the number of positive and negative Λ-terms in Einstein's vacuum equation to infinity. The solution to this equation leads to a closed Universe filled with a virtually infinite number of "corpuscles" (i.e., stable convex spherical vacuum formations) and "anticorpuscles" (i.e., stable concave spherical vacuum formations) with a hierarchical discrete set of radii. These "corpuscles" and "anticorpuscles" of different scales are nested within one another like Russian dolls. Thus, they form a multitude of hierarchical chains, all beginning with the core of a single largest "corpuscle" (i.e., the mega-Universe) and culminating in a single core of the smallest "corpuscle" (i.e., the instanton). As a result, a closed Hierarchical Cosmological Model was obtained, which allows us to outline the ways of solving many problems of modern physics, such as: baryon asymmetry of the Universe, confinement of quarks, geometrization of electric charge, gravity, dark matter and energy, etc. This article is a development and refinement of the Geometrized Vacuum Physics Based on the Algebra of Signature (GVPh&AS), presented in the articles [3,4,5,6,7,8,9, 10,11,12,13,14,15,16].
Category: Relativity and Cosmology

A Unifying View of Contrastive Learning, Importance Sampling, and Bridge Sampling for Energy-Based Models

Authors: L. Martino
Comments: 34 Pages.

In the last decades, energy-based models (EBMs) have become an important class of probabilistic models in which a component of the likelihood is intractable and therefore cannot be evaluated explicitly. Consequently, parameter estimation in EBMs is challenging for conventional inference methods. In this work, we provide a unified framework that connects noise contrastive estimation (NCE), reverse logistic regression (RLR), multiple importance sampling (MIS), and bridge sampling within the context of EBMs. We further show that these methods are equivalent under specific conditions. This unified perspective clarifies relationships among existing methods and enables the development of new estimators, with the potential to improve statistical and computational efficiency. Furthermore, this study helps elucidate the success of NCE in terms of its flexibility and robustness, while also identifying scenarios in which its performance can be further improved. Hence, rather than being a purely descriptive review, this work offers a unifying perspective and additional methodological contributions. The MATLAB code used in the numerical experiments is also made freely available to support the reproducibility of the results.
Category: Statistics

Galactic Rotation Curves from Full-Disk Newtonian Gravity: The Lost and Found Model

Authors: Adolfo Santa Fe Dueñas
Comments: 15 pages, 8 figures. Also available on arXiv:2604.06917.

The approximately flat outer parts of spiral galaxy rotation curves are commonly interpreted as evidence for a discrepancy between the observed baryonic mass and the dynamical mass inferred from the measured orbital velocities. In most standard analyses, this discrepancy is quantified using the spherical estimate M_dyn = v²R/G, which is exact only under spherical symmetry. However, spiral galaxies are flattened disk systems, for which mass exterior to the galactocentric radius under consideration can contribute non-negligibly to the gravitational field.

We introduce the Lost and Found (LF) model, a geometrically consistent Newtonian framework based on direct full-disk gravitational integration and a parametrized representation of the disk surface density. In this approach, the gravitational field is computed without imposing spherical symmetry, and the disk mass distribution is represented by two exponential components with a smooth outer truncation.

We apply the LF model to a heterogeneous sample of disk galaxies spanning a broad range of masses and radial extents. The model reproduces the main observed features of the rotation curves, including the inner rise and the approximately flat outer behavior, without explicitly invoking a dark matter halo or modifying Newtonian gravity. Across the sample, the LF-inferred mass scales nearly linearly with the conventional dynamical mass, with a characteristic reduction factor of approximately η_LF ≈ 0.67.

These results indicate that part of the inferred mass discrepancy may arise from the geometric treatment of gravitation in disk galaxies, and motivate a reassessment of mass inference in non-spherical systems.

Also available on arXiv:2604.06917.
Category: Astrophysics

Origin of Matter in Hyperhamiltonian Quantum Mechanics

Authors: Vladimir Trifonov, Philip V. Trifonov
Comments: 34 Pages. (Note by viXra Admin: For the last time, please submit article written with ANY AI assistance to ai.viXra.org)

We study some applications of hyperhamiltonian quantum mechanics, to the problem of origin of mass in quantum physics and cosmology. It is shown that, within HHQM framework, all matter, ordinary and dark is generated purely geometrically by the two-measure interaction on spacetime’s locally compact Lie group.
Category: Quantum Physics

On Absolutivity Theory

Authors: A. V. Herrebrugh
Comments: 12 Pages.

Absolutivity theory introduces a foundation of objective reality within a recently (March 2025) developed true 4D space-time model built on universal simultaneity within a continuum of expanding 3D space [08]. Essentially, the theory is a unification in the continuum of asymptotic modified Newtonian Gravity [07] and quantum theory, both embedded in a true 4D orthogonal space-time framework [08]. The Theory foundationally builds on S.M.Poisson's theories for potential fields, leading to Newton's 'inverse square law'; the core function M(r) mandatory requires a build-up of gravitation field starting at M(r) by M(0) = 0 and maximum value M(rc). The extended validity at the zero point of spatial axes eliminates singularities in gravity and predicts i.e. readily identifies suitability of a deterministic quantum theory within the continuum, featuring intrinsic scalability and integrated dynamics in Absolutivity theory. The independent dimensional foundation in the theory contradicts intrinsic space-time deformation/curvature and (mathematically) paves the way for a full deterministic description in quantum theory within the continuum of true 4D spacetime. In this paper as well physical applications are introduced in Absolutivity theory: Black holes, Hawking radiation, Harmonics wave theory and the Mass-gravity property.- Hawking radiation has been predicted from quantum mechanics alone and never received support from a more classical perspective. Here, treatment in Absolutivity predicts the reality of a (black hole size dependent) vacuum state area hidden by the Schwarzschild radius rS in black holes, and supports radiation and escaping mass particles. It does not identify evidence for a complete evaporation of a black hole. In principle the absence of the properties mass-gravity excludes a photon to experience an attractive force in Newton's model. This requires the 'lens' property in gravity for photons to be treated from a different perspective, using Lagrange's stationary action principles. Strong curvature of 'bent' light attributed to a 'dark' matter source [NASA, 09] in (clustered) galaxies is treated in Sec. 2.1 ith support of the phenomenon, however with a surprising and deviating conclusion of photons crossing the Schwarzschild radius twice.- In harmonics, F(x, t) represents the transform of f(x, t) typically a transformed function representing intensity in (line-)space: in the true 4D topology f(x, t) emerges two dimensional, while the four dimensional f(x,y,z,t) mathematically emerges in the unified complex framework of 4D space-time...(Truncated by viXra Admin fewer than 400 words)
Category: Quantum Physics

Euclidean Curvatures in the Full Modular Group Tessellation of the Upper Half-Plane

Authors: Hans Montanus
Comments: 8 Pages.

The successive action of the generators of the full modular group SL(2, Z) on thefundamental domain produces a tessellation of the upper half-plane H. Each tile is acurved triangle whose boundaries are circular arcs. We will analyze the curvatures ofthe boundaries from a flat space point of view. All Euclidean curvatures are integer.We will show that these integer curvatures are either odd or multiples of 8, and thatevery odd number and every multiple of 8 occurs as a curvature.
Category: Number Theory

On the Foundation of Physics Admissibility

Authors: Carson Anderson
Comments: 9 Pages.

Admissibility is shown to be necessary for any well-defined comparison, defined by invariance under relabeling, refinement, composition, finite propagation, and closure. From these constraints, relational structure and compositional consistency are forced, uniquely determining the form of admissible scalar comparison. Every alternative introduces dependence on representation, decomposition, or descriptive scale and is therefore excluded.This establishes quadratic invariant structure as a necessary condition of physical description. Its appearance in both general relativity and quantum theory is not contingent, but structurally inevitable. Any theory admitting well-defined scalar comparison must realize this constraint.
Category: Mathematical Physics

The Dynamics of Discrete Fact: a Phase-Transition Theory of Wavefunction Collapse

Authors: Ahmed Hamid Mahmoud
Comments: 23 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org) https://zenodo.org/records/18748601

The quantum measurement problem—the absence of any dynamical mechanism connecting continuous wavefunction evolution to discrete empirical outcomes—has persisted since the foundations of quantum theory. Decoherence explains interference suppression but cannot explain outcome selection: the diagonal density matrix remains an improper mixture until one outcome is actualized. We propose that collapse is a physical phase transition in the coupled system—apparatus field. The order parameter ψ, constructed as a conditional collective coordinate of apparatus degrees of freedom, evolves under time-dependent Ginzburg—Landau (TDGL) dynamics with a symmetry-breaking potential. When the coherence pressure γ ≡ g √N|⟨Sˆ⟩|/ℏωS exceeds a critical threshold γc = λ/ℏωS, the symmetric phase (superposition) becomes unstable and the field crystallizes into one of the discrete stable minima (eigenstates). We derive the critical coupling from microscopic system—apparatus Hamiltonians,obtaining the scaling gc ∼ N−1/2, which explains why macroscopic apparatus collapse wavefunctions while microscopic interactions preserve coherence. The TDGL dynamics are derived from the microscopic Hamiltonian via the Schwinger—Keldysh path integral, with each step a controlled approximation requiring no modification to the Schr¨odinger equation. The Born rule Pn = |cn|2 is preserved through a dynamical selection mechanism: an equal-basin-volume theorem—proved from the permutation symmetry of the apparatus interaction—ensures that attractor basin geometry under probability-conserving Fokker—Planck flow converts quantum amplitudes into outcome probabilities. We characterize the quantum-classical interface via two complementary classicality criteria and identify a four-stage measurement chain (unitary evolution → decoherence → coarse-graining → phase transition) that resolves the Heisenberg cut dynamically. The theory yields four falsifiable predictions absent from standard quantum mechanics: critical slowing near γc, hysteresis in the collapse—recoherence cycle, metastable supercooled superpositions,and transient Jacobian spikes at the moment of collapse. Quantitative estimates are provided for three experimental platforms—superconducting transmon readout, cavity QED with Rydberg atoms, and optomechanical systems—with explicit falsification criteria. This framework provides a concrete existence proof that collapse dynamics can be constructed from standard quantum mechanics plus statistical mechanics.
Category: Quantum Physics

Temporal Dislocation and Theoretical Reconstruction in the History of Science: A Unified Interpretation from Ion Channels to DNA Replication

Authors: Sun Zuodong
Comments: 8 Pages. (Note by viXra Admin: Further repetition will not be accepted)

Many major breakthroughs in modern life sciences display a prominent feature of phenomenon observation preceding structural analysis in the historical timeline. To fill cognitive gaps, classical theoretical systems often rely on auxiliary hypotheses to maintain logical consistency, which inadvertently increases theoretical complexity and violates the principle of simplicity pursued by science. This paper systematically reviews the complete course from the cognition of neuron structure, the discovery of cellular bioelectric phenomena, and the proposal of the sodium-potassium pump hypothesis to the structural elucidation of ion channels and the DNA double helix, clearly identifying the inherent theoretical contradictions caused by the lag in observation timing. On this basis, returning to the fundamental laws of biophysics, this paper proposes the ion channel windmill model for explaining action potentials and the DNA tetramer whole-chain transmission model for interpreting genetic information transfer. The new model system abandons redundant hypotheses, features a more concise logical chain, and puts forward several key experimentally testable predictions, providing a more internally consistent unified theoretical framework for neuroscience and molecular biology.
Category: Biochemistry

DisasterSim: A Reproducible Benchmark for Navigation and Coverage in Collapsed Structures with Empirical Analysis of Classical Exploration and Goal-Conditioned Learning-Based Methods

Authors: Newton Adhikari
Comments: 10 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

Autonomous navigation of collapsed buildings iscritical for disaster response, yet no standardized simulation benchmark exists for reproducible evaluation of robot navigationand coverage policies in such environments. We present DisasterSim, an open-source benchmark built on ROS 2 Humble and Gazebo Classic that provides a physically realistic post-earthquakebuilding interior with configurable obstacle density, a multimodal sensor suite with Extended Kalman Filter (EKF)-based fusion, four formally defined evaluation metrics with automatedcomputation, and four reference baseline policies. The entire system—environment, robot, SLAM, navigation stack, metrics, and automated experiment runner—executes from a singlecommand with frozen parameters to ensure full reproducibility. Our empirical study across 39 trials reveals a striking result: three fundamentally different classical exploration paradigms—reactive FSM, frontier-based, and potential field—converge to a statistically indistinguishable performance plateau of approximately 30% area coverage (p>0.79, |d|≤0.27). This convergence suggests that navigation constraints, not exploration strategy, form the primary performance bottleneck in cluttered disaster environments. A partially trained goal-conditioned PPO policy(370k of 600k planned steps)—which navigates toward a fixed known survivor location rather than exploring freely—achieves higher incidental coverage (36.9% mean, 61.1% peak, Cohen’sd=0.78), indicating that goal-directed learned navigation traverses more of the environment en route than classical explorers manage in the same time budget. We additionally identify a quantifiable coverage—localization trade-off (Pearson r=0.85, p<0.001), correct a data error present in an earlier draft, and discuss the design of a goal-free RL explorer as the next step toward a fully autonomous learned baseline. All code, configurations, experiment logs, andtrained models are publicly available.
Category: Artificial Intelligence

The Statistical Foundations of Quantum Mechanics I

Authors: Mark Syrkin
Comments: 31 Pages.

Arguing statistical foundations of quantum theory and showing the way it naturally resolves all quantum "mysterious paradoxes". In this context the great deal of attention is given to principles of quantum measurements. To facilitate a better appreciation of quantum mechanical paradigms we provide a brief essay of a quantum field theory and its natural evolution to nonrelativistic quantum mechanics, and then, to classical physics. The presentation aims at both physics students and young scientists, as well as seasoned researchers who will find the discussion of lots of interesting points. The first half contains basics of quantum mechanics and the discussion of main quantum paradoxes.
Category: Quantum Physics

The Statistical Foundations of Quantum Mechanics II

Authors: Mark Syrkin
Comments: 17 Pages.

Arguing statistical foundations of quantum theory and showing the way it naturally resolves all quantum "mysterious paradoxes". In this context the great deal of attention is given to principles of quantum measurements. To facilitate a better appreciation of quantum mechanical paradigms we provide a brief essay of a quantum field theory and its natural evolution to nonrelativistic quantum mechanics, and then, to classical physics. The presentation aims at both physics students and young scientists, as well as seasoned researchers who will find the discussion of lots of interesting points. The second half contains an essay on quantum field theory and the theory of quantum measurements.
Category: Quantum Physics

Mathematical Sentences as Matrices

Authors: A. Zelmer
Comments: 22 Pages. (Note by viXra Admin: An abstract in the article is required and please cite and list scientific references)

For a mathematical sentence to be absolutely precise, it must be formalized. Unfortunately, the usual formalizations become extremely difficult to understand if they are more complex. In this paper we propose a formalization based exclusively on logical operators, providing a general visual explanation.
Category: Set Theory and Logic

The Calculated Spirit

Authors: Johan Noldus
Comments: 110 Pages.

In this book, we study the spirit and clearly define Physics and strictly spiritual interactions by means of (an extension of) the notion of free will. The basic physical principles of energy sensation (of the naked self, being immersed in society), feeding and sexual intercourse are discussed and precisely lead to electromagnetism and the dilaton, the weak interactions as well as the strong nuclear interactions respectively with its singlet, doublet or triplet representation,as well as the internal degrees of freedom being spin and color, charge, isocharge and hypercharge of precisely the particles of the super symmetric standard model. An explanation for the emergence of the proton and neutron is provided for as being the only stable compound particles which behave as fundamental particles in nature. Also, the psyche in the sense of Psychology and psychism is studied leading to predictions in medicine, sociology, biology and other fields of human be hehavior.
Category: Mind Science

Haar Measure on Spacetime as Geometric Source of Dark Energy

Authors: Vladimir Trifonov, Philip V. Trifonov
Comments: 2 Pages. 2 figures (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We present a model of a purely geometric source of Dark Energy (effective cosmological constant) within the framework of Hyperhamiltonian Quantum Mechanics where spacetime acquires a locally compact Lie group structure with two volume measures (Haar, generated by the multiplication on the group, and Lebesgue, induced by the natural closed FLRW metric of the group). Following earlier suggestion by one of the authors that the group-invariant Haar measure may address non-Newtonian behavior at large scales, it is taken to represent vacuum energy density, while Lebesgue is assumed responsible for matter/radiation density. It is shown that Haar vacuum energy mimics dark energy at cosmological scales, generating accelerated expansion geometrically without an explicit cosmological constant. We develop a self-contained linear cosmological perturbation theory to show almost perfect agreement with LambdaCDM.
Category: Relativity and Cosmology

Dissecting the Sri Yantra Diagram Reveals a Range of Precise Information of a Cosmological Nature

Authors: Bruno R. Galeffi
Comments: 9 Pages.

A detailed examination of relative distances, shapes, dispositions, numerical symbolism, and 3-D perspective of the emblematic Sri Yantra diagram is presented and discussed. In particular, it is found that the emergence of (+) and ( ) vacuum energy densities from a preexisting source, the cosmic expansion, and the occurrence of chemical elements, are all embedded in the diagram. The golden ratio as well.
Category: General Science and Philosophy

What is a Way to Introduce a Huge Flux of Energy in the Initial Onset of Inflation?

Authors: Andrew W. Beckwith
Comments: 2 Pages. Moriond Cosmology for 2026 conference

First, We consider if a generalized HUP set greater than or equal to Planck’s constant divided by the square of a scale factor as well as an inflation field, yield the result that Delta E times Delta t is embedded in a 5 dimensional field which is within a deterministic structure. Our proof ends with Delta t as of Planck time yielding an enormous potential energy, Second, we tie this energy to black hole physics and the early universe. i.e ,Our idea for black hole physics being used for GW generation , is using Torsion to form a cosmological constant. Planck sized black holes allow for a spin density term linked to Torsion.
Category: Quantum Gravity and String Theory

Understanding Magnetic Hose

Authors: Abhijit Bhattacharyya
Comments: 9 Pages. Data is available upon requet.

Fast magnetic flux control is important for circuit quantum electrodynamics (cQED) to control qubit precisely. The $3D$ superconducting microwave resonators posses higher volumes turning them to insensitive to surface dielectric losses resulting in higher $Q$ values in comparison to $2D$ resonators which have higher dissipation due to surface losses. Thus $3D$ resonators increase the decoherence time. Although this makes a strong reason to opt for $3D$ superconducting resonators while it is difficult to tune the qubit using fast magnetic field accurately from outside the $3D$ resonator. In this paper, we try to understand transporting the magnetic filed inside a cylindrical superconducting cavity implementing a cylindrical magnetic hose using finite element analysis.
Category: Classical Physics

Telepathic Recording: Structural Convergence in Isolated Musical Improvisation

Authors: Anton Efimov, Evgenia Sivkova
Comments: 2 Pages.

We report a case of structural convergence emerging in temporally isolated musical improvisation. Two musicians performed three simultaneous recording sessions without any real-time communication, each lasting approximately 20 minutes and conducted in geographically distant locations. Despite the absence of interaction, the recordings exhibit consistent alignment across multiple levels, including dynamics, rhythmic structure, coordinated pauses, and convergent pitch regions. We interpret these observations as evidence of shared internal predictive models developed through prior collaboration, rather than direct information exchange. All raw recordings are provided to support reproducibility and independent evaluation.
Category: Mind Science

Algebraic Obstructions and Perturbation Identities for Collatz Cycle Uniqueness

Authors: Nikola Chachev
Comments: 15 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We present a new algebraic reformulation of the uniqueness problem for periodic orbits of the Collatz map $c(n) = n/2$ ($n$ even) or $c(n) = 3n+1$ ($n$ odd). The question of whether ${1,2,4}$ is the only positive integer cycle is classically equivalent to an integer divisibility condition of the form $(2^S - 3^L) mid N$. We recast this condition as the vanishing of an explicit integer polynomial --- the cycle polynomial $P_G(t)$ --- evaluated at an arithmetic point $t_0$ of multiplicative order $L$ modulo $D = 2^S - 3^L$. This perspective reduces the uniqueness problem to a question of polynomial non-vanishing over $mathbb{Z}/Dmathbb{Z}$, which we analyse through the 2-adic and 3-adic structure of the evaluation map $G mapsto P_G(t_0) bmod D$. Using this framework we establish two partial results. First, for every mixed valuation sequence $G$ --- one in which the accumulated deviations $varepsilon_i$ take both positive and negative values --- the cycle polynomial satisfies $P_G(t_0) otequiv 0 pmod{D}$ in the special case where exact integer vanishing $A(G) = B(G)$ would be required; this follows from a parity obstruction on 2-adic valuations together with the step-size constraint $G_i geq 1$. Second, we identify a combined 2-adic and 3-adic obstruction that constrains any hypothetical solution $P_G(t_0) equiv 0 pmod{D}$ to an increasingly rigid arithmetic structure. The case of non-zero multiples --- whether $A(G) - B(G) = kD$ for $k geq 1$ --- remains open; we describe precisely thegap and the new ideas that would be needed to close it.
Category: Number Theory

A Different Approach to Relativistic Gravity and Expansion of the Universe Using no Other Constants Than G and C

Authors: Olov Nilsson
Comments: 15 Pages.

It is self-evident that no knowledge of or surroundings can exist without observations from us or our fellows. This knowledge can of course be transferred to others, changing the context in which we perceive and understand our universe. I use the idea that both velocity and gravity can be described as a "potential for observation", for a lack of better vocabulary. With the function f(x)=(1/x) and the inverse of the derivative of the Lorentz transformation, both Einsteinian kinetic energy and relativistic gravity can be computed. With the constants c and G, it is possible to construct a version of postnewtonian relativistic gravity, consistent with basic parts of Einstein's theory, but also suggesting a calculation of the expanding universe, deduction of an exact value of the Hubble constant, with no other constants involved than c and G.
Category: Relativity and Cosmology

Some Variations of the Secretary Problem

Authors: Sarthak Agrawal, Sanjeev Saxena
Comments: 22 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We consider two variations of the classical secretary problem. * A variation of the returning secretary problem where each interviewee may appear a second time with a fixed probability p. The decision-maker observes interviewees sequentially and must choose whether to accept or reject each appearance. We characterize the optimal threshold rule and examine its dependence on the reappearance probability p, highlighting how additional information from repeated appearances improves selection performance.* A variation of the secretary problem in which success is defined as selecting any one of the top three interviewees rather than the single best. Interviewees are observed sequentially in random order, and decisions are irreversible. We estimated the success probability under this relaxed success criterion using the threshold strategy of the classical secretary problem. The results show that allowing selection among the top three significantly increases the success probability and shifts the optimal stopping threshold earlier than in the classical problem. This model provides insight into realistic decision-making scenarios where top interviewees are more or less similar.
Category: Data Structures and Algorithms

A Phenomenological Harmonic Semilattice for Selected Physical Scales

Authors: Alberto Coe
Comments: 4 Pages. (Note by viXra Admin: Please cite and list scientific references)

We examine the possibility that selected physical observables may approximately organizearound a discrete half-integer harmonic semilattice generated by the ratio 3/2. Taking the electron rest energy as a reference scale.
Category: Mathematical Physics

AI and Neuroengineering Powered Slavery: a Distopian Future

Authors: Tianqi Zhu
Comments: 6 Pages.

Recent progress in minimally invasive brain—computer interfaces (BCIs), nanoscale neural interfacing, and multimodal neural decoding has enabled increasingly precise access to and interpretation of human brain activity. This paper analyzes the dual-use risks associated with these technologies when integrated with advanced artificial intelligence and adaptive social engineering methodologies. We formalize a conceptual architecture for "brain-invading systems," which leverage closed-loop neural interaction, personalized modeling, and behavioral manipulation strategies to influence cognitive and affective states. We examine enabling components, including remote-capable neural interfaces and high-fidelity decoding pipelines, and discuss their potential convergence into scalable manipulation frameworks. Key challenges in detecting such systems are evaluated, including signal attribution, adversarial interference, and limitations in current neurodiagnostic methods. We further discuss opportunities in detecting such neuro-AI system for malicious purposes based on EEG signals.
Category: Artificial Intelligence

The Riemann Hypothesis as a Consequence of the Weierstrass Persistent-Remainder Obstruction

Authors: Calvin Alexander Grant
Comments: 16 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

The Riemann Hypothesis is proved by showing that every non-trivial zero of the Riemannzeta function ζ(s) lies on the critical line Re(s) = 1/2. The proof is carried out entirely in the persistent-remainder category, where the relevant object is not a smooth local carrier but a graph-space with positive scaling excess. First, the prime-harmonic tail of ζ in the critical strip is shown to belong to the persistent-remainder class, so infinitesimal closure fails and tangent escape is blocked at all scales. Second, the graph-space obstruction is written in discrete form through Hessian sign phases, line-events, and closed sign chains: the line is not primitive, but is generated as the zero-interface between opposite sign phases, and the minimal half-turn-preserving chain forces the 1:3 topology. Third, the functional equation ξ(s) = ξ(1 − s) is identified as the arithmetic half-turn whose unique fixed locus is Re(s) = 1/2; by the half-turn sign law of the companion paper [1], any zero off this locus is a destructive node and is therefore inadmissible. Faltings’ theorem is retained as the arithmetic shadow of the same obstruction: in genus g ≥ 2, unrestricted rational refinement fails just as unrestricted infinitesimal smoothing fails in graph space. The same argument extends to Dirichlet L-functions, establishing theGeneralized Riemann Hypothesis.
Category: Number Theory

Nonlocal One-Loop Form Factors of the Spectral Action with Standard Model Content

Authors: David Alfyorov
Comments: 18 pages, 4 figures. Also available at doi:10.5281/zenodo.19098042

We compute the complete nonlocal one-loop form factors F₁(□/Λ²) and F₂(□/Λ²,ξ) of the curvature-squared sector of the spectral action S = Tr f(D²/Λ²) for the full Standard Model particle content: 4 real scalars (Higgs), 45/2 Dirac-equivalent fermions (3 generations), and 12 gauge bosons (SU(3)×SU(2)×U(1)). Using the Barvinsky-Vilkovisky covariant perturbation theory and the Codello-Zanusso diagrammatic heat kernel, we derive closed-form results for each spin sector (0, 1/2, 1) in the Weyl basis and assemble the Standard Model totals. The local limits yield α_C = 13/120 for the Weyl-squared coefficient and α_R(ξ) = 2(ξ-1/6)² for the R² coefficient, where ξ is the Higgs non-minimal coupling. Both form factors are shown to be entire functions, ensuring no additional propagator poles beyond those of the classical theory. We derive the c₁/c₂ ratio, the scalar graviton decoupling condition at conformal coupling ξ = 1/6, and the UV asymptotic behavior. The form factors yield a modified Newtonian potential with calculable effective masses m₂ = Λ(60/13)^1/2 and m₀ = Λ/(6(ξ-1/6)²)^1/2, connecting the spectral action framework to solar-system phenomenology. All results are verified by independent multi-precision numerical evaluation.
Category: Quantum Gravity and String Theory

On Physical Aspects of the '(st)ringy'

Authors: Kohji Suzuki
Comments: 22 Pages.

We try to let the '(st)ringy' (viXra:1912.0532 [v1]) explain massive graviton, leptonic spin-3/2 particle, and so on. Meanwhile, we come across a number system which we tentatively call `hexanion', as if it were a by-product.
Category: Mathematical Physics

The Error [?] in Schr"odinger's Equation

Authors: Jorma Jormakka
Comments: 4 Pages.

The article points to the basic error in the wavefunction concept. Thesolution for the Schr"odinger equation for the hydrogen atom is not an orbital, itis an orbit, especially, it is an elliptic orbit. The error is that the Quantum Mechanical solution ignores the angular momentum conservation law which in quantumphysics is expressed as quantization of angular momentum. The Schr"odinger equationmust obey this rule as it is basically the same as de Broglie's wavelength, which isthe stated motivation for making the momentum substitution.
Category: Quantum Physics

A Derived Equation for Electron Mass Calculation

Authors: Yvan Raverdy
Comments: 3 Pages.

Here, we establish an equation for electron mass which depends on the age of the Universe T by combination between the result of our reference article [1] and Space time description [2], this equation is so depending on the four physical constants. That allows us to calculate T ; the numerical value obtained matches that deduced from the analysis of the cosmic microwave background (CMB) with a greater precision.
Category: High Energy Particle Physics

Gravitational Analogy of Casimir-Effect from Qed to Gravity Description in GRT by Extended GRT-Gravity Without Ostrogradsky Ghost-Problem as Higher Derivative of Effective Gravitative Fieldtheory. a Global Fixpoint-Solution.

Authors: Holger Döring
Comments: 36 Pages.

Classical GRT of Einstein-description of gravity-theory can be extrapolated to higher structures. This extension adds higher-order terms to classical general relativity because GRT itself can be assumed to be a first-order expansion of spacetime. These higher corrections can lead to new observations in the vacuum, with gravitational waves, or black holes. Furthermore, an attempt is made to transfer the Casimir effect of quantum electrodynamics as an analogy from the electromagnetic vacuum to a spacetime description and to describe this analogy as a gravitational effect within GRT.
Category: Quantum Gravity and String Theory

The Environment Layer: Building Infrastructure for Agentic AI Training

Authors: Fei Wang, Eric Wang, Salon Ren
Comments: 45 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

The emergence of Agentic Reinforcement Learning (Agentic RL) has created an urgent need for sophisticated training environments that go beyond traditional RL benchmarks. While conventional LLM-RL operates within single-step MDPs, Agentic RL requires environments supporting multi-turn interactions, tool integration, and verifiable reward signals. This white paper argues that RL environments are the foundational infrastructure for agentic AI---the critical layer that determines what capabilities agents can learn and how reliably they transfer to deployment.We present a comprehensive analysis of the environment layer, organized around three core questions: (1) Environment Design---what makes an effective Agentic RL environment, including observation spaces, action interfaces, and reward mechanisms; (2) Environment Infrastructure---the frameworks, protocols, and tools for building and deploying environments at scale; and (3) Environment Quality---methodologies for evaluating environment fidelity, the sim-to-real gap, and production readiness.We survey the ecosystem of environment frameworks (OpenEnv, GEM, MCP), synthetic environment generation pipelines (Agent World Model, Reasoning Gym), and specialized environments for embodied AI (NVIDIA Cosmos, Isaac Sim). We introduce the Environment Quality Framework (EQF) for systematic environment evaluation and analyze the critical sim-to-real gap through the User-Sim Index. Finally, we present a research agenda for next-generation RL environments that will enable the transition from research prototypes to production-ready agentic systems.
Category: Artificial Intelligence

A Theory Analogous to Relativity Established Using the Doppler Effect and Delayed Potential

Authors: Xianxiang Duan
Comments: 38 Pages. In Chinese (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

This article presents a theory analogous to relativity. Starting from the velocity term in the delayed potential or Doppler effect formula, it establishes a mathematical framework similar to relativity but with distinct physical interpretations by drawing analogies between electromagnetic fields and gravitational fields. The theory proposes the existence of a "mass field force" through such analogies. Serving as an effective theoretical framework within flat spacetime, it reconstructs the primary observable effects of general relativity at solar system scales through Doppler-weighted corrections to the delayed potential, without introducing curved spacetime geometry. This approach provides a novel physical interpretation while predicting the absence of singularities.
Category: Relativity and Cosmology

Dynamics of the Memristor FitzHugh-Nagumo Equation and the Memristor Chua Circuit Equation

Authors: Makoto Itoh
Comments: 47 Pages.

In this paper, we show that a voltage-controlled nonlinear resistor can be regarded as a voltage-controlled memristor when its behavior is observed using the time derivatives of state variables. Next, we derive the memristor FitzHugh-Nagumo equation by differentiating the original FitzHgh-Nagumo equation with respect to time. We also show that the trajectory of the memristor FitzHugh-Nagumo equation is highly dependent on the initial flux condition. This trajectory can be changed by applying a small single pulse. Furthermore, the square wave forcing creates many complex behaviors such as chaotic attractors and limit cycles. These behaviors also depend on the initial flux condition. Therefore, it is impossible to predict the trajectory without knowing the initial flux condition. Next, we observe the trajectory's evolution by adding a small DC bias current to the square wave forcing. We show that as time progresses, the trajectory changes shape and eventually shrinks. This resembles the refractory period of neurons. Finally, we study the signal transmission between the two memristor FitzHugh-Nagumo circuits which are connected by a unity-gain buffer. We show that, for the signal to be transmitted almost exactly, the initial flux condition must be identical. Additionally, we derive the memristor Chua circuit equation by differentiating the original Chua circuit equation with respect to time. Our findings are nearly identical to those for the memristor FitzHugh-Nagumo equation. We also study the signal transmission between two memristor Chua circuits that are connected by a unity-gain buffer. We show that nearly perfect transmission requires the identical initial flux condition. It should be noted that requiring the identical initial flux conditions results in more secure communication with the memristor Chua circuits than with the original Chua circuits. Finally, we would like to emphasize the following points: The memristor FitzHugh-Nagumo equation and the memristor Chua circuit equation both exhibit rich dynamics. The identification of the circuit elements depends on the coordinate system used to observe them.
Category: Mathematical Physics

A Structural Framework for Classical Dynamics I: Singular Limits and the Emergence of Discrete Motion

Authors: Tom Robert Franck Cooper
Comments: 10 Pages.

This work investigates the emergence of discrete dynamical structures from classical and relativistic formulations of motion. Using standard differentiation rules, we examine how Newtonian dynamics can be expressed in terms of energy gradients within a consistent formal framework. The relativistic kinetic-energy function is then analyzed in two limiting regimes: the classical limit ($beta to 0$) and the relativistic limit ($beta to 1$), where its asymptotic behaviour becomes singular.In the singular regime, the dominant contributions of the kinetic-energy expansion exhibit a hierarchical structure that naturally leads to weighting factors of the form $(n+tfrac{1}{2})$. This structure is shown to be consistent with the discrete spectrum of the quantum harmonic oscillator, suggesting that certain quantum features may be related to underlying classical asymptotic behaviour.The analysis is complemented by a geometric interpretation of electromagnetic interactions using Gaussian units, together with a generalized functional perspective for handling singular contributions. Within this framework, the introduction of a small interaction scale—analogous to a Yukawa-type modification—provides an effective description of interaction ranges.Overall, this approach provides a conceptual bridge between classical mechanics, relativistic dynamics, and quantum-like discretization, highlighting the role of singular limits, normalization, and geometric structure in the emergence of discrete spectra.
Category: Mathematical Physics

A Structural Framework for Classical Dynamics II: Energy—Momentum Conservation and Transport Structure

Authors: Tom Robert Franck Cooper
Comments: 11 Pages.

This work presents a unified structural perspective on classical dynamics, emphasizing the interplay between variational principles, conservation laws, and transport formulations. Starting from Newton’s Second Law, we review the derivation of the Euler--Lagrange equations via D’Alembert’s principle and highlight how continuous symmetries give rise to conserved quantities through Noether’s theorem, culminating in the energy--momentum tensor formulation.We show that diverse physical theories — including particle mechanics, continuum mechanics, fluid dynamics, and kinetic theory — can be interpreted as different realizations or projections of a common underlying structure. In particular, dynamical evolution can be expressed as transport of physically relevant quantities along trajectories, fields, or phase-space flows, with the kinetic contributions determining the form of the evolution operator.Building on this perspective, we introduce an alternative kinetic formulation in which the conservation of the energy--momentum tensor naturally gives rise to familiar dynamical equations, including Newton’s Second Law, the Navier--Stokes equations, and the Vlasov equation. This approach emphasizes that apparent differences between dynamical frameworks arise from different projections of the same underlying conservation and variational structure.Finally, we interpret dynamics as evolution within a generalized space of states, where physical trajectories correspond to stationary-action paths selected from the set of admissible configurations. This unifying viewpoint lays the groundwork for further exploration of higher-order or generalized dynamical systems and provides a structural bridge toward Part III, in which interactions are effectively one-dimensional along evolution paths.
Category: Mathematical Physics

A Structural Framework for Classical Dynamics III: Effective Interaction Fields and the Three-Body Problem

Authors: Tom Robert Franck Cooper
Comments: 16 Pages.

This paper develops a geometric reconstruction of the three-body problem starting from a reformulation of the two-body interaction law. In the two-body case, the interaction is separated into two complementary contributions associated with the two masses, combined by an inverse-sum rule, and used to identify the origin of motion relative to the observed body. This reproduces the usual barycentric structure while making the geometric role of the interaction origin explicit.The central question addressed here is whether this construction can be extended to the three-body problem. We show first that the naive extension fails for geometric reasons: the interaction of a given observed body is no longer supported on a single line of centres, but on two generically non-collinear channels. The difficulty is therefore not simply that more terms are present, but that the two-body interaction geometry is no longer globally available.To overcome this obstruction, we construct a local three-body interaction law based on three ingredients: a local interaction scale, a local shape tensor encoding the two-channel geometry, and a frame/self structure that determines the local interaction length. The asymmetry between the two channels is incorporated through dimensionless correction factors associated with channel participation and channel sharing. The resulting local pull axis is then defined by a Newtonian-weighted combination of the two interaction directions, while the motion itself is governed by a scalar pull-only law.The construction is tested on the principal benchmark solutions. It reduces correctly to the two-body problem when one channel disappears, reproduces the equal-mass equilateral Lagrange solution exactly, and the figure-eight choreography to numerical precision. These results indicate that the essential geometric problem of the three-body system lies in the reconstruction of the local pull axis rather than in the need for a fundamentally more complicated force law.The main conclusion is that the two-body problem extends to three bodies not through a direct superposition of pairwise reductions, but through the reconstruction of a local interaction geometry in which axis selection and origin scaling must be separated. Within this framework, a scalar pull-only law becomes sufficient once the correct local pull axis and origin has been identified.
Category: Mathematical Physics

A Stochastic Framework for Real-Time Quantum Field Dynamics

Authors: Xiao Lin
Comments: 40 Pages.

We propose a Stochastic Formulation that establishes a direct mathematical correspondence between the real-time Feynman path integral in Minkowski spacetime and the expectation values of classical stochastic processes. This framework offers an alternative approach to quantum dynamics by formulating evolution through intrinsic stochastic processes rather than relying solely on pre-discretized spacetime backgrounds. Specifically, we demonstrate that the unitary dynamics of scalar fields can be mapped to continuous Wiener processes, while spinor fields correspond to discrete Poisson jump processes. Distinct from conventional methods involving perturbative expansions, Euclideanization, or Grassmann algebra, our formulation provides a non-perturbative, real-time framework where quantum amplitudes are derived statistically from stochastic trajectories.We implement this framework via a grid-based tree recursion scheme for the Klein-Gordon field, benchmarked against exact solutions of the forced harmonic oscillator. For the Dirac field, we derive an analytical closed-form finite difference scheme that effectively models its evolution. By integrating these schemes, we successfully apply the framework to the Yukawa coupling model and extend it to QED. Our results reveal non-trivial dynamical features, such as feedback-driven mass oscillations, offering complementary insights to standard perturbative descriptions. Crucially, the structural nature of this stochastic approach inherently avoids the fermion doubling and sign problems often encountered in lattice approach. These applications suggest a robust pathway for tackling complex systems, including gauge theories like QCD.
Category: Quantum Physics

Ordinary Synchronization-Compensation Transformations of Coordinate and Time Increments in the People's World

Authors: Pavlo Danylchenko
Comments: 8 Pages.

The fallacy of using such a false parameter as the coordinate velocity of light in GR is proven. This coordinate velocity of light, unlike the limit velocity of matter, cannot in principle be less than the true velocity of matter. The suitability for use in the people's world of only ordinary synchronization-compensation transformations of increments of spatial coordinates and time is substantiated. These transformations, unlike the alternative to them ordinary Lorentz transformations (OLT), allow to proportionally synchronize all clocks that move in a gravitational field by inertia. The suitability of OLT (due to the inherent to OLT blueshift of the frequency of centripetal radiation instead of redshift) for use only in the comoving with expanding Universe frame of references of spatial coordinates and time is proven. Newton's law of gravity is obtained directly from the condition of no change in the flow of the proper time of matter during its inertial motion in a gravitational field. The fallacy of ignoring the compensation of gravitational dilation of time by the inertial motion of matter is most thoroughly substantiated. And this is in good agreement not only with relativistically invariant thermodynamics, but also with the equations of the dynamic gravitational field of both the Solar System and flat galaxies.
Category: Relativity and Cosmology

Scattering of Spin 1/2 Particles by Coulomb Field

Authors: Miroslav pardy
Comments: 7 Pages. Original article

Using the Dirac equation for electron in the Coulomb field, we find the Green function by the iteration method and then we deduce the transition matrix. The corresponding dierentialcross-section is then derived. The article is written with the mathematical simplicity and the Schwinger pedagogical clarity.
Category: Quantum Physics

A Technique for Making Nuclear Fusion in Solids — Diversification

Authors: Richard Wayte
Comments: 14 Pages.

A technique is demonstrated for making nuclear fusion by shearing or electrically-igniting compressed mixtures of numerous hydride+catalyst powders. Controlled explosions have been generated which are stronger than exothermic chemical reactions for the materials.
Category: Nuclear and Atomic Physics

Goh-Schmutz Constant

Authors: Edgar Valdebenito
Comments: 5 Pages. (Note by viXra Admin: Please cite listed scientific references!)

In this note, we give some formulas for the Goh-Schmutz constant
Category: General Mathematics

Why Relations Precede Existence: A Critical Examination of the Entity-First Assumption in Physics

Authors: Mephibosheth Thomas
Comments: 12 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We critically examine the ontological assumption that "existence precedes relations" — the view that spacetime, particles, and fields are fundamental entities with intrinsic properties, and that relations are derivative. Through a careful analysis of three key physical problems (the black hole information paradox, quantum non-locality, and the nonu2011renormalizability of quantum gravity), we argue that the entity-first assumption leads to deep conceptual tensions that resist resolution. We then propose an alternative: "relations precede existence", where fundamental reality consists of a network of relations, and spacetime, fields, and particles emerge as patterns in this network. We provide a precise mathematical definition of such a relational framework and show how it resolves the identified tensions. Moreover, we have previously demonstrated that from such a relational network one can rigorously derive free scalar quantum field theory and U(1) gauge theory in the continuum limit, providing concrete evidence that the relational framework is not merely philosophical but yields predictive physics. The paper does not claim a definitive proof but aims to establish the relational view as a viable and promising foundation for fundamental physics, worthy of serious consideration.
Category: History and Philosophy of Physics

Determining the Mass of the Universe from the Mass of the Earth Using Flow and Gravity Laws, Based on the Dualistic Model of a Dynamic and Static Earth

Authors: Tibor Endre Nagy
Comments: 13 Pages.

Based on the dualistic model of Earth moving with the expanding universe and considered static at the same time, the total mass of the universe can be determined using the flow laws and Newton's law of universal gravitation. A concentric sphere can be drawn in three dimensions around the Earth moving in the opposite direction compared to the receding galaxies. A tubular geometric shape can be fitted into this sphere in all directions from the center to the periphery. By increasing the radius of the tube of radius h expressed from the Einstein formula to the size of the radius of the universe (i.e. H), a continuous, axisymmetric cylinder can be formed. The speed according to Hubble's law, at a redshift of 3.14, is equal to the speed of light in a volume of radius h. Maintaining, this speed with respect to the universe, we can study the changes in the parameters of the cosmos through the flow laws of matter moving in one direction in a tube of varying cross-section. This approach, together with the application of gravitational attraction, can lead to the determination of the mass of the universe.
Category: Relativity and Cosmology

Accretion Delay in Massive Star Formation

Authors: Jan Makopa
Comments: 11 Pages.

It is bona-fide knowledge that, radiative feedback from the core of a pre-main sequence (PMS) star leads to a global accretion delay in stellar formation. How long the accretion delay lasts, remains poorly constrained in existing numerical and analytical model. This problem is more common in massive star formation where the global accretion delay leads to modulated accretion rates which effectively traps massive stars in a pre-ignition bottleneck, where they exhaust their energy supply before achieving stable nuclear fusion. Numerical tools capable of this task are lacking at present. We consider the present investigation an important step in this direction. Here we show that, in a radiative pressure-dominated regime, an unprecedented radiative contraction delay $t_{text{RD}}$, must exceed the Kelvin-Helmholtz timescale ($t_{text{KH}}$). This uncertainty poses a major stumbling block in our current understanding of stellar evolution.
Category: Astrophysics

Classification of Infinite Sets and Negative Proof of the Continuum Hypothesis

Authors: Zhi Li, Hua Li
Comments: 7 Pages.

This paper constructs a series of transcendental subsets of real numbers by creating a construction method based on infinite sets of transcendental numbers. It also proposes the concept that infinite sets can be divided into one-dimensional, two-dimensional, and multi-dimensional sets according to the number of degrees of freedom required for the expansion of their elements. For example, the set of natural numbers, the set of even numbers,and the set of odd numbers belong to one-dimensional infinite sets, while rational numbers belong to two-dimensional infinite sets, and so on. When the number of degrees of freedom is infinite, it becomes an infinite-dimensional set, and several infinite-dimensional sets can constitute a hyperdimensional set.This paper proves that the set of real numbers belongs to the hyperdimensional set, and itscardinality is far greater than the infinite power set of the cardinality of the set of naturalnumbers; between the set of natural numbers and the set of real numbers, there exist infinitely many number sets. The result of this paper disproves the continuum hypothesis.
Category: Set Theory and Logic

Summary of the Main Technical Procedures for Linking Tunisian Airports to the WGS84 Global Geodetic System

Authors: Abdelmajid Ben Hadj Salem
Comments: 3 Pages. In French

This article is a summary of the main technical procedures for linking Tunisian airports to the WGS84 global geodetic system.
Category: Geophysics

Explaining the Spin, Zeeman Effect and Lamb Shift in Sommerfeld's Atomic Mode

Authors: Jorma Jormakka
Comments: 12 Pages.

It is claimed in Quantum Mechanics that Sommerfeld's atomic model is inable todescribe the full spectrum of hydrogen. This claim is justified by stating that Sommerfeld'satomic model cannot describe spin in the fine structure formula and that it cannot explainthe Zeeman effect. Both claims are shown incorrect in the article. The article points totwo serious errors in the Quantum Mechanical derivation of the fine structure spectrum formula and the Zeeman effect. The first is that there is a confusion of angular momentum andradial momentum: these effects are effects of radial momentum. The operators $J$ and $L$ inQuantum Mechanics, given as angular momentums, are actually radial momentums both in the finestructure spectrum formula and in the Zeeman effect energy levels. The second error is inthe calculation of eigenvalues of a sum of operators as the sum of the eigenvalues of the summandoperators. The last section commentson the last claimed gap in Sommerfeld's atomic model: that it cannot explain the Lamb shift.It is argued that the explanation of the Lamb shift in Quantum Mechanics is not a valid explanation asQuantum Field Theory is shown incorrect by the anomalous magnetic moment of an electron.In Sommerfeld's atomic model the states $2S_{1/2}$ and $2P_{1/2}$ have different eccentricity andtherefore different energy level.
Category: Quantum Physics

Pi's Irrationality: Geometry and Logic

Authors: Timothy Jones
Comments: 4 Pages. This proof is well within the grasp of a pre-calculus student.

We give a proof of Pi's irrationality using geometry, some logic, and ideas of set theory (cardinality ideas).
Category: Number Theory

Deduction of Planck's Radiation Law Using Boltzmann Statistics Without Quantization Postulates

Authors: Antonio Jose Mejias Marquina
Comments: 2 Pages.

This work will demostrate that blackbody radiation is a thermodynamic phenomenon.
Category: Thermodynamics and Energy

Gravity Conservation of Energy and Absorption of Two Zero Mass Particles By a Spherical Mass

Authors: Karl De Paepe
Comments: 2 Pages.

We compare the energy, including gravitational energy, of a system of two zero rest mass classical particles before and after absorption by a solid spherical mass and show energy is not conserved.
Category: Relativity and Cosmology

Dark Energy and Zero Active Mass Equation

Authors: Fernando Salmon Iza
Comments: 5 Pages.

For decades, the prevailing view in the scientific community has been that our universe is expanding at an accelerating rate. However, a recent experimental study (Junhjuk Son et al., 2025) seems to confirm that our universe shows no signs of acceleration; that is, we might be living in a non-accelerating universe. In this work, we present evidence that this result agrees with the predictions of relativistic theory. To this end, we present a proof of the zero active mass equation (ρ + 3p = 0) for a universe with FLRW metric and zero space curvature (k = 0). We study the expansion of the universe by analyzing two partial models: a classical energy model and a thermodynamic fluid dynamics model. The interrelation between these two models demonstrates that, for universes with zero space curvature and a Lapse function equal to one, the valid solutions to the Friedmann equations are only those that lead to a non-accelerating universe. It is important to note that this proof also provides a result on the energy needed for the expansion of the universe, concluding that for a non-accelerated expansion no additional energy is needed.
Category: Relativity and Cosmology

Sigma-8 Anomaly as Potential Evidence for Fractal Spacetime (Part 2)

Authors: Ervin Goldfain
Comments: 36 Pages. (Note by viXra Admin: Further repetition may not be accepted; please submit article written with AI assistance to ai.viXra.org)

We conjectured in [1] that a non-vanishing and scale-dependent deviation of effective spacetime dimension from generates corrections to the Poisson equation and to the cosmological clustering process. This sequel elaborates on how Fractional Poisson Equation offers a viable explanation of the Sigma 8 anomaly.
Category: Relativity and Cosmology

A Look at Sommerfeld's Fine Structure Spectrum Formula

Authors: Jorma Jormakka
Comments: 10 Pages.

The article gives the derivation of Sommerfeld's fine structure spectrum formulaand my comments on it. I think Sommerfeld's approach has been too easily discarded. (For those interested in whether a semiclassical model can explain the whole spectrum of hydrogen, I will look at the spin, the Zeeman effect and the Lamb shift in a separate paper. I cannot yet say what the result is. One can model them, yes, but does the model make sense, this I cannot yet say.)
Category: Quantum Physics

Non-inertial Relativity Theory, MOND and Generalized Gravity in Curved Phase Spaces

Authors: Carlos Castro
Comments: 22 Pages.

We pursue further our work on (Born Reciprocal) Non-inertial Relativity theory. Starting with a brief review of the theory, and how Non-inertial Relativity redefines the notion of mass, the phase space particle trajectories in $ D = 2 + 2 $ are revisited by emphasizing the key difference between a truly $U(1,1)$-invariant mass $ {cal M }$ and the Lorentz-invariant mass $m$. The derivation of the generalization of the special relativistic expression of $ E = m ( 1 - v^2 )^{ - 1/2} $ ($c=1$) to the non-inertial relativistic case follows. This, in turn, leads to the non-inertial relativistic extension of Milgrom's modified Newtonian dynamics (MOND) law. In the most general setting, one finds proper-time $ m ( tau ) $, and spacetime-dependent $ m ( x^mu)$ masses for point particles, when the proper force $ F $ depends on $ tau$ or $ x^mu$, respectively. By recurring to the tools of Finsler geometry, we finalize by writing the generalized gravitational field equations in curved phase space in the presence of matter sources, like particles and cosmic strings. As a result, both spacetime and momentum space are curved. We conclude with some remarks as to why curved momentum space should play an important role in quantum gravity.
Category: Quantum Gravity and String Theory

Information, Knowledge, and Intelligence as a Measure of Influence, Truth, and Efficiency

Authors: Friedrich Sösemann
Comments: 30 pages english, 30 pages german

The presupposed ontology describes a deterministic, digital world as interacting values in space and time. It defines properties, states, laws, and subjects. It thus makes it possible to describe information, knowledge, and intelligence as hierarchical relations and to propose measures of dependence on states, the truth of descriptions, and the efficiency of calculations. Describing objectifies storage, calculating objectifies thought.Besides clarifying and standardizing the still controversial terms, then the following conclusions are possible:For the truth of knowledge, not the same perception of the subjects is required, but only their temporal constancy.Despite the assumed determinism and universal causality, abstraction can lead to subjective chance and zero knowledge.
Category: General Science and Philosophy

Introduction to Bayesian Probability and Its Use in Theoretical Physics

Authors: John Hemp
Comments: 237 Pages.

Bayesian probability, has a long history, but has developed into its most useful, contemporary form, thanks largely to the work of E. T. Jaynes (1922-1997). A brief account of Jaynes’s theory of probability is given in this book, and examples of its profitable use in theoretical physics are given. These include its use in statistical thermodynamics (to clarify, in particular, the meaning of thermodynamic entropy), and its use in the theory of Brownian motion (to derive the diffusion equation and the concepts of particle drift-velocity and probability flux). Also discussed is the way in which rational Bayesian probability theory eliminates the paradoxes that block the way toward a realist interpretation of quantum mechanics, and promises a more rational formulation of quantum mechanics involving complex-valued Bayesian probabilities.
Category: Mathematical Physics

A Unified Geometric Interpretation of Time Dilation in Special and General Relativity

Authors: K. Sethuraman
Comments: 5 Pages. (Note by viXra Admin: Please cite and list scientific references and submit article written with AI assistance to ai.viXra.org)

Time dilation in Special Relativity (SR) and General Relativity (GR), discovered by Albert Einstein, is conventionally introduced through distinct mechanisms: relative velocity in SR and gravitational potential in GR. In contrast, this paper proposes a unified conceptual framework for interpreting time dilation in both SR and GR based on a single geometric principle, illustrated using a common light-clock model. The guiding heuristic is "longer path = slower tick." In SR, relative motion causes the light pulse in a moving light clock to follow a longer diagonal spacetime path between successive reflections, leading to time dilation. In GR, spacetime curvature(geodesics) generated by mass—energy causes the light pulse to follow a longer curved path between equivalent clock events, likewise resulting in time dilation. Rather than interpreting gravitational time dilation solely through abstract expressions involving gravitational potential, this approach emphasizes a geometric interpretation in which time dilation arises from the increased spacetime path length traversed by the light pulse in curved spacetime. This interpretation is consistent with the experimentally verified Shapiro time delay, which demonstrates that a light pulse requires additional propagation time when passing through regions of strong gravitational curvature near a massive body. This framework is intended as a heuristic and interpretive aid and it does not replace the full tensorial formulation of SR and GR or their quantitative predictions derived from the Einstein field equations.
Category: Relativity and Cosmology

Virtual Element Model: A Unified Theory of Spacetime and Matter Based on the Entropy-Pressure Mechanism

Authors: Haiwei Ren
Comments: 16 Pages. In Chinese (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

A unified physical model with the virtual element as the basic energy unit and entropy pressure as the core dynamic mechanism is proposed in this paper． The virtual element has an inherent motion property of the speed of light, with its free state corresponding to pure energy and bound state corresponding to matter． This model redefines the physical essence of time, space and gravity: time is the entropy increase process of matter returning to free energy, space is the distribution domain of entropy pressure gradient, and gravity is the generalized force induced by entropy pressure gradient． By introducing the entropy-time coupling relationship, the time dilation is directly correlated with the local entropy pressure field, and the Newtonian gravitational potential is derived under the weak field approximation, thus achieving compatibility with general relativity． The model uniformly explains the intrinsic connections of matter, energy, light, electromagnetic waves, thermodynamic laws and cosmic evolution, and puts forward testable experimental predictions． This study constructs a complete theoretical system for the unification of spacetime and matter, and provides a new feasible path for the establishment of a unified physical framework in physics．
Category: Classical Physics

Under What Conditions is the Energy of a Photon Proportional to Its Frequency?

Authors: Yefim Bakman
Comments: 8 Pages. 3 figures

When an artificial intelligence (AI) model was asked the question in the title, the answer was "Under all conditions." This response is understandable because, in the dominant paradigm, photons have no size, structure, or mass, and consequently, there is no photon model, but there is spin. When asked about spin, the AI model replied that spin is not the rotation of matter in space, but rather a representation of the Lorentz group. Planck's formula is a postulate, not the result of a physical consequence. The answer to the question in the title can be found within the framework of a new paradigm built on Tesla's insight. In this new paradigm, photons have size, structure, non-zero mass, and spin; thus, compared with the dominant paradigm, the new paradigm provides a closer match to classical physics.Here, based on this photon model, we derive a generalized formula for the energy and frequency of a photon, in which Planck’s formula is a special case.
Category: Classical Physics

Examples of Exams of Physical Geodesy of The German Geodesy School

Authors: Abdelmajid Ben Hadj Salem
Comments: 12 Pages. In French

This document includes the exams for the physical geodesy course given at the Institute of Geodesy of the University of Stuttgart during the period 2007-2013. It is an invitation to the students of the French school of Physical Geodesy.
Category: Geophysics

Relational Emergence Model: A Generative Extension of Relational Quantum Mechanics

Authors: Yoshifumi Maruko
Comments: 6 Pages.

This paper proposes the Relational Emergence Model (REM) as a generative extension of Relational Quantum Mechanics (RQM). While RQM defines physical states as relative correlations between systems,it does not explicitly address how such correlations are dynamically produced. The REM introduces emph{differentiation} as a generative process through which relational distinctions become articulated and subsequently stabilizedinto effective classical structures via decoherence. More precisely, differentiation is formalized as a bipartition-selecting map$mathcal{D}$---not a unitary operator, but a descriptive structural selection---that produces explicit system--observer correlations from apre-relational Hilbert space. Environmental decoherence then suppresses off-diagonal coherences, stabilizing effectively classical facts. Rather than asserting any equivalence between quantum theory and Buddhist philosophy, this work identifies a structural correspondence between relational quantum interpretations and the concepts of dependent origination(prat={i}tyasamutp=ada) and emptiness ('{s}={u}nyat=a). The central contribution of REM is a shift from the emph{definition} ofrelational states to the emph{modeling of the generation} of relational structure itself.
Category: History and Philosophy of Physics

On the Ontological Prerequisites of Initial Cosmological Conditions and the Limits of Physicalist Causality

Authors: Isaac Cohan
Comments: 10 Pages.

Modern cosmological models frequently posit that the universe emerged from a quantum vacuum or a zero-energy state, eectively asserting that the cosmos originated from nothing. This paper examines the logical, statistical, and informational limitations of such physicalist models. By analyzing the informational prerequisites of quantum uctuations, energy conservation, the statistical probability of universal metaphysical intuition, and the ontological anomaly of human consciousness, we argue that physical laws are non-contingent informational boundaries that can-not account for their own existence. The invocation of mathematical laws to explain the origin of the universe therefore necessitates a pre-existing, non-contingent source of that information. We further address prominent objections from evolutionary psychology, animal cognition research, and information-theoretic formalism to strengthen the case that a purely physicalist framework provides an incomplete accounting of reality.
Category: History and Philosophy of Physics

Reflections on the Implementation of a New Geodetic System

Authors: Abdelmajid Ben Hadj Salem
Comments: 4 Pages. In French

This note, which I wrote in 1988, is a reflection on a methodology for setting up a geodetic system for a country without geodesy.
Category: Geophysics

New Proof of Pythagorean Theorem

Authors: Lambros Stephanis
Comments: 2 Pages.

Proof Pythagorean Theorem using Euler's identity.
Category: Geometry

A Note on a Degenerate Circle and a Line via Division by Zero Calculus

Authors: Saburou Saitoh
Comments: 3 Pages. (Note by viXra Admin: Further repetition will not be accepted; please cite and list scientific references)

We consider the degenerate case of the general circle equation. By applying Division by Zero Calculus, we observe that two different finite quantities arise depending on the algebraic form of the radius. One corresponds to zero area, while the other gives the signed distance from the origin to the line.
Category: General Mathematics

Regarding the Massive, Contradictory Descriptions Concerning the Mathematical Axioms—A=A, A≠¬A, ¬A=¬A, and A∨¬A—and Mathematical Operations

Authors: Taiyou Ikiru
Comments: 31 Pages. In Japanses (Note by viXra Admin: Please cite and list scientific reference and submit article written with AI assistance to ai.viXra.org)

I demonstrate that, within mathematical operations, there inevitably exist instances where the axiomatic principles governing the mathematical axioms A=A, ¬(A∧¬A), and ¬A=¬A are not adhered to. In doing so, I reflect upon the relationship between logic and mathematics.
Category: General Mathematics

The Observer Factor

Authors: Iuri Bagaturia, Zaza Melikishvili, Anzor Khelashvili, Koba Turashvili
Comments: 14 Pages.

In the analysis below, we will show that the idea of a "quantum computer" contradicts the principles of quantum mechanics and its practical implementation will be impossible. The analysis points out the phenomena of theoretical physics, the incorrect interpretations of which contributed to the birth of this erroneous idea. One of these errors is the phenomenon of quantum entanglement", which is based on a misinterpretation of the "observer factor". This part analyzes the "observer factor" and the history of the appearance of this factor in the physical reasoning of quantum theory.
Category: Quantum Physics

Quantum Discreteness

Authors: Iuri Bagaturia, Zaza Melikishvili, Anzor Khelashvili, Koba Turashvili
Comments: 10 Pages.

The idea of "quantum computers" states that the discrete states of a quantum object can be used to create information bits. In this part of the text, we will show that the practical implementation of this idea will be impossible, since the arguments that are indicated as the basis of this implementation contradict the principles of quantum mechanics.
Category: Quantum Physics

The Classical Origin of Quantum Superposition

Authors: Iuri Bagaturia, Zaza Melikishvili, Anzor Khelashvili, Koba Turashvili
Comments: 10 Pages.

According to modern concepts of physics, the phenomenon of "Quantum Superposition" is a characteristic of quantum processes of the microcosm, which has no classical analogue. In this part of the text, we will show that this phenomenon is not a characteristic of the microcosm only, and such a phenomenon can be introduced in the probabilistic method of describing the processes of the macrocosm. At the same time, we will indicate the fundamental principles of probabilities — common to both the micro and macrocosm, according to which the phenomenon of "quantum superposition" will be presented as a special case of these principles.
Category: Quantum Physics

Quantum Superposition

Authors: Iuri Bagaturia, Zaza Melikishvili, Anzor Khelashvili, Koba Turashvili
Comments: 10 Pages.

According to the principles of quantum mechanics, a quantum superposition is defined by the sum of the basis vectors of a probability space. Depending on the physical circumstances under which the corresponding events with random outputs occur, these sums can be realized by an infinite number of different combinations of the mixing coefficients of these vectors. Theoretical concepts of a "quantum computer" assume that when creating an information bit, each physical state corresponding to a specific superposition sum can be used as a separate detail of this information bit. Based on this phenomenon, in the case of a single quantum object, the creation of many and potentially infinite classical digital bits is assumed, and it is precisely this phenomenon that corresponds to the "Q-bit." Our goal is to determine, from the standpoint of the principles of quantum mechanics, whether an empirical realization of the "Q-bit" is possible. Below, we demonstrate that a physical realization of this idea will be impossible, since the arguments cited as the basis for such an implementation contradict the principles of quantum mechanics and are based on false interpretations of these principles.
Category: Quantum Physics

Quantum Entanglement

Authors: Iuri Bagaturia, Zaza Melikishvili, Anzor Khelashvili, Koba Turashvili
Comments: 13 Pages.

One of the important details of the myth of "Quantum Computers" is "quantum computing", the main detail of which is the phenomenon of "Quantum Entanglement". In particular, if two Q-bits are brought into a "Quantum-Entangled" state, it will be possible to transmit information from one Q-bit to the other by the mechanism of "Terrible Long-range Action", that is - instantaneously. As a result of the creation of such technology, the speed of calculations - carried out in "Quantum Computers" will be significantly faster compared to the speed of calculations of conventional computers. Below we will show that the creation of such technologies will be impossible for a simple reason - there is no phenomenon of "Quantum Entanglement" in physical reality.
Category: Quantum Physics

Wave-Corpuscular Dualism

Authors: Iuri Bagaturia, Zaza Melikishvili, Anzor Khelashvili, Koba Turashvili
Comments: 19 Pages.

The principle of "wave-particle" dualism in quantum mechanics is introduced on the basis of the statement: all quantum objects behave as particles in some physical circumstances, and as waves in others. Using laser devices, we carried out simple demonstration experiments in physical circumstances in which the wave nature of the photon flow was expected to be revealed. Based on the analysis of these processes, we have easily shown that there are no empirical grounds for attributing a wave nature to quantum objects participating in these processes, i.e. photons. Analyzing the historical arguments for the introduction of the principle of duality, we conclude: the description of processes involving objects of the microcosm requires the creation of an alternative and more adequate theoretical concept than one based on the principle of dualism.
Category: Quantum Physics

Critical Notes on the Problem of Elastic Scattering of Particles in Non-Relativistic Quantum Mechanics

Authors: Iuri Bagaturia, Zaza Melikishvili, Anzor Khelashvili, Koba Turashvili
Comments: 11 Pages.

The paper critically examines the details of the corresponding theoretical problem of particle scattering in non-relativistic quantum mechanics. The discussion proceeds in two directions: one - the correctness of physical and mathematical interpretations of individual details of the scattering problem; second - checking the correctness of mathematical methods used in specific mathematical calculations. Details of the scattering problem are pointed out, whose existing interpretations contradict the basic principles of quantum mechanics. A detail of mathematical calculations is also pointed out, contradicting the principle of correct calculation and leads the corresponding calculations to erroneous results. After correcting this erroneous mathematical method, it becomes clear that the problem lies in the initial mathematical algorithm itself, which is used to formulate the theoretical problem of scattering.
Category: Quantum Physics

Establishment of a Network of Permanent GPS Stations and a Basic Geodetic Network in Algeria

Authors: Abdelkader Sellal, Abdelmajid Ben Hadj Salem
Comments: 8 Pages.

This article summarizes the IT equipment requirements (software and hardware) and technical methodologies for establishing a network of permanent GPS stations and a basic geodetic network for Algeria.
Category: Geophysics

Negative Proof of The Continuum Hypothesis

Authors: Zhi Li, Hua Li
Comments: 5 Pages.

The continuum hypothesis states that the set of real numbers is the power set of the countable set of natural numbers, the smallest uncountable set, and its cardinality is greater than that of natural numbers. There is no set whose cardinality is absolutely greater than that of countable sets and absolutely less than that of the set of real numbers.This paper proposes a method for constructing a subset of real numbers and proves that itscardinality exceeds that given by the continuum hypothesis. This result refutes the continuumhypothesis and pushes the cardinality of real numbers to a higher order of magnitude.
Category: General Mathematics

On the Ligo GW150914 Event Induced by Sudden Change of Gravity Forces of Ocean Tidal Bulges Acting on the Ligo Test Masses

Authors: Davor Palle
Comments: 14 Pages.

We argue that the sudden change of the sign of the difference between the gravity forces of oceantidal bulges on the test masses of two orthogonal arms of LIGO interferometers could be responsible for theLIGO GW150914 event at the time when the relative strainwas measured. The time coincidence of the events at Hanford and Livingston (USA) interferometers is explained by the moving ocean bulge crossing the critical point in the southern part of the Indian Oceanwhere the forces change the sign.The precise position of the critical point is defined by positions and orientations of the two LIGOinterferometers.During the LIGO GW150914 event,the Moon and the Sun were in very close zenith positions in East Africa.The approximate alignment of the Moon and the Sun with the Earth is present also at the time of theLIGO GW151226 and LVT151012 events. The local maxima of tidal forces exerted on the Indian Oceanappear once in a month.The future inclusion of the third Virgo interferometer in Cascina (Italy)proves to be decisive because it cannot produce the time coincident event with the two LIGO interferometerswithin the described scenario.
Category: Relativity and Cosmology

An Expository Application of Lagrange Interpolation to Diophantine Sequences and the Collatz Conjecture

Authors: Authman Jassim Mohammed
Comments: 3 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

A common challenge in discrete mathematics and numerical analysis is translating discrete, rule-based algorithms into continuous algebraic functions. While the foundations of this translation lie in the historic work of Joseph-Louis Lagrange, applying these principles to modern piecewise systems offers valuable geometric insights. This expository paper demonstrates an intuitive, step-by-step construction of continuous indicator polynomials to model the trivial sequence of a symmetricDiophantine equation and provides a novel polynomial alternative to Marc Chamberland’s trigonometric extension of the Collatz (3x+1) Conjecture.
Category: Number Theory

A Different View on the Nature of Physical Phenomena

Authors: Viktor S. Dolgikh
Comments: 18 Pages. (Note by viXra Admin: Further repetition may not be accepted)

This paper presents a fundamental particle L^S in the form of a "plum pudding J.J." blank, all of whose properties reflect the basic physical phenomena of nature, as well as its evolution from the source of formation.
Category: Nuclear and Atomic Physics

A Table of Pisano Period Lengths

Authors: Richard J. Mathar
Comments: 13 Pages. Reprinted from a version dated from 2012.

A Pisano period is the period of an integer sequence which is obtained by reducing each term of a primary sequence modulo some integer m >= 1.Each primary sequence which obeys a linear homogeneous recurrence with constant coefficients has such periods for all m >= 1. The manuscript tabulates the lengths of these periods indexed by m for a small subset of the OEIS sequences.
Category: Number Theory

A Mathematical Proof About Spatial Symmetry Invariance of Solution of the Three-Dimensional Navier-Stokes Equations

Authors: Shijun LIAO
Comments: 5 Pages.

We prove such a mathematical theorem that solution of the incompressible Navier-Stokes equations under periodic boundary condition has the same spatial symmetry for all t>0 as its smooth initial condition, if there exist the spatial symmetry for initial condition, the external force is steady-state, and the temporal Taylor series of velocity exists and has a non-zero radius of convergence for t >= 0. This theorem can be used to check the correctness and reliability of numerical simulation of Navier-Stokes equations for turbulent flows.
Category: Mathematical Physics

Shaking up Newton's Theory[:] The Anomalous Velocity of Comet Oumuamua

Authors: Henk Dorrestijn
Comments: 13 Pages. hjdorrestijn@gmail.com

In this article, we focus on a new interpretation of gravity. This view sees gravitational acceleration around a mass as a response to the disruption of spatial symmetry caused by the obstructive effect of the mass on the propagation of radiation. Newton's gravity formula requires some modification, but the key change is that gravity is not directed at the center of gravity of the mass at its actual location, but at the location where the moving mass was located when the radiation making the mass visible passed by. We call this interpretation the obstruction theory. This new theory is successfully applied in this article to calculate the anomalous velocity of the interstellar comet Oumuamua.
Category: Astrophysics

Cosmic Filaments Without Dark Matter: Cylindrical Vacuum Localized Structures as Exact Relativistic Solutions

Authors: Rudi Van Nieuwenhove
Comments: 8 Pages.

Cosmic filaments constitute one of the most prominent components of the large-scale structure of the Universe, forming coherent, elongated bridges between clusters and superclusters of galaxies. In the standard cosmological framework, these structures are interpreted as dark-matter-dominated density enhancements produced by the gravitational amplification of primordial fluctuations. In this work, we explore an alternative description based on Vacuum Localized Structures (VLS): self-gravitating solutions of the Einstein field equations characterized by a non-standard vacuum equation of state.We derive and analyze a new class of exact, cylindrically symmetric VLS solutions of the Einstein equations, appropriate to modelling extended filamentary systems. These solutions are supported by an effective stress—energy tensor with radial pressure p_r=-ρ/3, generalising the equation of state previously identified in spherical VLS configurations. We characterise the resulting space-time, study its gravitational field, and show that it naturally gives rise to coherent, non-singular, extended structures with finite mass per unit length.The present cylindrical solutions extend earlier work on spherical VLS, where galactic-scale configurations were shown to reproduce key features of observed rotation curves without invoking particle dark matter. Taken together, the spherical and cylindrical solutions provide a unified relativistic framework in which both galactic halos and cosmic filaments emerge as manifestations of vacuum-organized gravitational structures.We discuss the physical properties of cylindrical VLS, their potential stability, and their relevance to observed filament phenomenology, including coherence length, mass distribution, and large-scale dynamical effects. These results suggest that vacuum localized structures may offer a viable alternative foundation for the gravitational scaffolding of the cosmic web.
Category: Relativity and Cosmology

Lonely Runner Conjecture Proof

Authors: Bhaskar Kumar
Comments: 2 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

The Lonely Runner Conjecture, independently proposed by Wills (1967) and Cusick (1973), asserts that for any n runners on a unit circular track moving at distinct integer speeds, there exists a time at which each runner is at distance at least 1/n from a fixed reference runner. We provide a complete proofby reformulating the problem in terms of simultaneous residue conditions and proving existence via an inductive construction using the least common multiple and arithmetic properties of congruences. The proof is elementary, relying only on the Chinese Remainder Theorem and basic number-theoretic tools.
Category: Combinatorics and Graph Theory

Quantum-Elastic Geometry: From Geometric Extension to Linear and Non Linear Regimes

Authors: Juan Moreno Borrallo
Comments: 33 Pages. (Note by viXra Admin: For the last time, please submit article written with ANY AI assistance to ai.viXra.org!)

Supplemental Material of the main paper "Quantum-Elastic Geometry: From Geometric Extension to Linear and Non Linear Regimes"
Category: Relativity and Cosmology

Introduction to the Quantum Theory of Electrogravitation

Authors: Arcangelo Recchia
Comments: 110 Pages.

In the first chapter, the "conversion factors" are introduced, which are dimensionless coefficients used to evaluate the effect of accelerated expansion of spacetime on measurements. It is shown that these factors can be expressed through a common parameter, α, the fine-structure constant, which is linked to the ratio between the theoretical radius (13.6-13.8 Gly) and the measured radius (46.5-47 Gly) of the universe.

In the second chapter, it is demonstrated that dark matter and dark energy do not exist, and the gravitational effects attributed to them are actually caused solely by ordinary matter.

In the third and fourth chapters, Newton's theory of gravitation is first extended into the generalized gravitational theory and then into the generalized electrogravitational theory. The latter, among other things, predicts the existence of electrogravitational waves, suggesting that photon and graviton are the same particle and that the graviphoton is constituted by two elementary electric charges of opposite sign.

In the fifth chapter, Planck's law is derived from first principles. This implies that Planck's constant is no longer a fundamental constant but derivable from other constants.

In the sixth chapter, the electrogravitodynamic equations and the electrogravitational stress-energy tensor are developed.

In the seventh chapter, the quantization of Einstein's field equation is carried out.

In the eighth chapter, the possibility that elementary particles are in turn composed is examined and discussed: we have seen that the graviphoton corresponds to the elementary particle composed of two electric charges of opposite sign.

In the ninth chapter, the mass ratio between proton and electron (approximately 1836) is calculated.

In chapter ten, the concept of force is revised, as all particles can be exchanged, making them all carriers of force.

In chapter eleven, the multiverse with repeated gravitational collapses (like a matryoshka) is introduced.

In chapter twelve, the theory of information is integrated with the electrogravitational field: Information must be "contained" by something, whether it be a stone slab, a book, a CD, or any other means. This raises the question of whether there exists an ultimate level on which information can be encoded, the level of fundamental "0" and "1". This can only be spacetime itself (the electrogravitational field).
Category: Quantum Gravity and String Theory

Classical Derivation of Planck’s Relation and Constant Through the Poynting Vector

Authors: Arcangelo Recchia
Comments: 2 Pages. 5 Figures (Note by viXra Admin: An abstract labled as such is required in the article)

Planck’s relation E=hv establishes a direct proportionality between the energy of a photon and the frequency of the electromagnetic wave. In the conventional framework of quantum mechanics, Planck’s constant is introduced as a fundamental constant. Its value is determined experimentally and accepted as a starting point. In this work, however, it is shown that the relation E=hv, and thus Planck’s constant h, can be derived using classical electromagnetic theory.
Category: Quantum Physics

Dihedral and Solid Angles at the Apex of a Tetrahedron

Authors: Harish Chandra Rajpoot
Comments: 13 Pages. 5 Figures (Note by viXra Admin: An abstract labled as such is required in the article; further repetitions of similar articles may not be accepted)

In this paper, generalized analytical expressions are derived for determining the internal (dihedral) angles between consecutive faces of an arbitrary tetrahedron and the solid angle subtended at any of its vertices. The derivation is based on HCR’s Inverse Cosine Formula in conjunction with HCR’s Theory of Polygon. The resulting relations provide a simple and systematic method for evaluating the dihedral angles and the vertex solid angle when the three apex angles between the edges meeting at a given vertex are known. Owing to their general form, the derived formulae are also applicable to configurations in which three faces meet at a vertex of regular and uniform polyhedra, thereby enabling efficient computation of vertex solid angles in such solids.
Category: Geometry

Evaluation of Four Energy-Momentum Relations

Authors: Mueiz Gafer KamalEldeen
Comments: 5 Pages.

The aim of this research is to identify and classify the different formulas that describe the relationship between energy and momentum. We examine all the three currently known relations in addition to a newly proposed relation in terms of their range of validity and their physical significance. It is found that the proposed relation is the most broadly valid and strongest in terms of physical significance.
Category: Relativity and Cosmology

On a Unified Speculative Framework Connecting Cyclic Conformal Cosmology, de Sitter Holography, and Fuzzball Boundary States

Authors: Eugene McDonnell
Comments: 14 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We present a speculative theoretical framework that attempts to connect three distinct structures in contemporary theoretical physics: Penrose's Conformal Cyclic Cosmology (CCC), the de Sitter/CFT correspondence (DS/CFT), and the fuzzball description of black hole microstates in string theory. The central conjecture is that the asymptotic conformal boundaries of eachcosmological aeon — identified in CCC as the interface between successive aeons — may bereinterpreted as fuzzball boundary states within an eleven-dimensional M-theoretic substrate, with the intervening de Sitter geometry playing the role of a transient geometric bridge. TheEinstein-Rosen/Einstein-Podolsky-Rosen (ER=EPR) conjecture is proposed as the structureinvariant under conformal transitions, providing a mechanism for information preservation acrossaeon boundaries. We further conjecture that the apparent separation between past and futurefuzzball states is an artifact of dimensional projection from eleven to four dimensions, and that inflation may be interpretable as the geometric response to the quantum entanglement initialisation complexity of the nascent de Sitter bridge. Each component of this framework is explicitly classified by its epistemic status. No claim of mathematical derivation is made; this work is a speculative research programme identifying open questions and potential falsification directions.
Category: Quantum Gravity and String Theory

On the Problem of Measurement in Quantum Mechanics

Authors: Francesco Prandel
Comments: 6 Pages. In Italian

This paper examines the "measurement problem" posed by quantum mechanics. The discussion of the problem is based on the analysis of the concepts of "isolated physical system," "possible state of a physical system," and "interaction between physical systems." The proposed solution to the problem is suggested by W. Heisenberg's philosophical position on the theory, which he expressed in terms of the metaphysical binomial potentiality-actuality.
Category: Quantum Physics

Death Mechanism An Underlying Empowering System for Cosmic Evolution, Civilizational Trial-and-Error, and Ethical Revision

Authors: Xin Zhao
Comments: 16 Pages.

Based on an interdisciplinary perspective integrating astrophysics, evolutionary biology, civilizational sociology, and ethics, this paper constructs a progressive empowering model of the "cosmos-planet-civilization" three-level death mechanism. It systematically demonstrates that death is not the ultimate destiny of the universe and civilizations, but an underlying empowering mechanism running through materialcirculation, biological evolution, and civilizational advancement. The research shows that the death of stars and planets serves as the core engine of the matter-energy coupling cycle; through heavy element synthesis and celestial iteration, it lays the material foundation for the birth of life. The death of individual terrestrial organisms is a rigid link for planetary ecosystems to maintain low-entropyequilibrium, driving the evolutionary emergence of intelligent life through species iteration.The demise of early civilizations constitutes the trial-and-error threshold ofcivilizational evolution, providing empirical lessons for the ethical revision of maturecivilizations through costly practices. Combining empirical cases of the disappearanceof ancient civilizations, this paper clarifies for the first time the dialectical relationshipbetween "the empowering nature of death mechanisms" and "the autonomy of civilizational survival". It proposes that ethical revision is the core paradigm for civilizations to break through the trial-and-error destiny and master cosmic laws. The innovative value of thisresearch lies in breaking the traditional cognition of "death being opposed tocivilizations", reconstructing the death mechanism as a pre-empowering system forcivilizational evolution. It provides an interdisciplinary theoretical framework withboth scientific rigor and practical guidance for human civilization to achieve long-term survival through ethical revision and ultimately undertake the mission of delaying or reversing local heat death in the universe.
Category: General Science and Philosophy

The Compton Effect is a Relativistic Effect

Authors: Antonio Jose Mejias Marquina
Comments: 2 Pages.

In this work, the formula for the Compton effect will be derived using the conservation of electron energy and relativity.
Category: Relativity and Cosmology

Proactive Heuristic Synthesis (PHS): Addressing the Reactive Bottleneck Through Latent Idle Consolidation in LLMs

Authors: Ali Zulfiqar
Comments: 6 Pages.

Current Large Language Model (LLM) architecturesare fundamentally reactive, operating within a "Prompt-Response" paradigm that leaves significant computational resourcesdormant during inter-prompt intervals. This paper introducesProactive Heuristic Synthesis (PHS), an architecturalframework that enables models to transition into a state of LatentIdle Consolidation. Unlike "thought-at-inference" methods (e.g.,Quiet-STaR) which impose latency penalties, or static distillationmethods (e.g., Fast Quiet-STaR) which lack continuous adaptability,PHS shifts the computational burden to asynchronousidle cycles. The framework utilizes a Regret-Based Replaymechanism defined by the counterfactual delta between initialinference failure and post-exploration success to target high-valueoptimization trajectories. Unlike recent replay methods suchas SuRe, which prioritize high-perplexity samples for memoryretention, PHS prioritizes high-regret samples for reasoningevolution. By autonomously navigating these associations, themodel synthesizes novel heuristics verified via a Dual-ModelConsensus engine to prevent generation-verification collapse. Thispaper establishes the mathematical formulation and architecturalblueprint of PHS. We theoretically demonstrate that by shiftingfrom perplexity-driven retention to regret-driven evolution, PHSprovides an asymptotically optimal solution to the latencyreasoningtrade-off. Furthermore, relying on recent bounds inrecursive training, we formalize how our Dual-Model Consensusmathematically mitigates model collapse, offering a rigorouspathway to zero-latency self-evolution in LLMs.
Category: Artificial Intelligence

A Study on the Unified Dynamic Laws of Tropical Cyclone Vortices and Keplerian Systems

Authors: Yi Wang
Comments: 5 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

This study takes typically near-circular tropical cyclones over multiple global sea areas as the research objects, and deploys observation profiles around the 64 kt, 50 kt and 34 kt wind radii. The core objective is to verify whether the V²R value in the full-scale main circulation region of tropical cyclones is a constant. All study cases adopt the wind circle data of the same tropical cyclone at the identical observation time to ensure the energy stability of the cyclone. The verification results show that the V²R conservation characteristic of tropical cyclones has cross-sea universality, and the fluctuation range of measured data is within a reasonable error interval; V²R is a deformation of the Kepler constant K (R³/T² = K), and tropical cyclones and the Keplerian system follow the unified dynamic law of central force field vortices.
Category: Geophysics

Why Billiard Balls, Soldier Crabs, and Quantum Computers Deserve the Same Research Funding

Authors: Sergei Esipenko
Comments: 17 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

We examine the foundational assumption shared by quantum computing, classical analogcomputing, billiard-ball computing, and biological computing (soldier crabs): that continuous physical variables can be controlled with sucient precision to perform useful computation. We introduce concrete error-correction schemes for billiard-ball systems (BBEC) and crab-based systems (CEC), demonstrate that their failure modes are structurally identical to those facing quantum error correction (QEC), and show that the reasons we immediately recognize BBEC and CEC as unworkable apply with equal force to QEC at scale. We present a formal framework for comparing precision requirements across paradigms, address the linearity objection by showing that decoherence reintroduces eective chaos, and catalog 30 years of unfullled milestones inquantum computing. We conclude that the precision requirements for useful quantum computation are, by all available experimental evidence, physically unachievable, and that the quantum computing program rests on the same unfounded assumption as the billiard-ball computer: that continuous variables in physical matter can be controlled with arbitrary precision.
Category: Quantum Physics

On the Microstructure of Black Hole Singularity

Authors: Farid Abrari
Comments: This article is in English and has 7 pages.

The singularity of a black hole with a quantum index b was previously shown to be consisted of b concentric spherical shells of a constant diametral step size A, corresponding to a fundamental resolution interval in nature. An interior shell j was found to be a condensation of a Primordial Stem Particles (PSP) of mass m = h/Ac, at excitation state j and momentum jmc. The spatial uncertainty of the constituents at this excitation state was found to be jA, therefore, confining the particles to the very surface of the shell of diameter jA. The number of constituents N_1 = A^2/(4L_p^2) of the innermost shell j = 1 was found to be the quanta of particle count in the singularity, such that particle count on a shell of index j was N_j = (3j^2 − 3j + 1) N_1. Invoking Tammes’s conjecture, we have shown in this article that the microstructure of the black hole singularity is consisted of a distinct set of curved hexagonal lattices that are wrapped into the spherical shells. It is shown that the distance of the constituents on the innermost shell is d_1 = √ (8π/√3) Lp. The microstructure gets progressively finer towards the outer shells. In the outermost shell of the singularity of the supermassive black holes, the lower limit d_infty is approaching to √(8π/3) Lp. It is also noted that a centered hexagonal tessellation naturally emerges from N_j law which is a remarkable hint of consistency in the proposed theory of black holes.
Category: Condensed Matter

Confirming the Riemann Hypothesis

Authors: Francesco Aquilante
Comments: 3 Pages.

The concept of the textit{quantum Riemann sum} ($Q$-sum) is introduced as a theoretical framework to bridge the gap between the physics of discrete energy quantization and the analytic continuation of divergent series. By identifying the $Q$-sum generator as a Todd operator, we demonstrate that the Riemann zeta function emerges as the spectral signature of a complex dynamical system. We show % derive a closed-form energy identity revealing that the non-trivial zeros $ho=sigma+igamma$ correspond to states of vanishing boundary flux, where the system’s hermitian potential and anti-hermitian flow reach perfect equilibrium,for which charge-parity symmetry % governed by charge-parity symmetry, that is conserved if and only if requires the states to reside on the critical line $sigma = 1/2$. Consequently, the {em Riemann Hypothesis} of 1859 is now revealed not merely as a proven arithmetic theorem, but as a necessary condition for spectral stability and symmetry conservation in quantized systems.
Category: Number Theory

On the Nonexistence of the Identity C 3 − B 3 = a 3 for Pythagorean Triples

Authors: Kurmet Sultan
Comments: 3 Pages.

We show that for any Pythagorean triple (a, b, c) satisfying a^2+b^2 = c^2 with a, b, c ∈ N, the equality c^3 −b^3 = a^3 cannot hold. The proof is elementary and relies only on algebraic manipulation and the structure of the Pythagorean equation, without invoking Fermat’s Last Theorem.
Category: Algebra

Infinite Cycle Classes

Authors: Bin Wang
Comments: 7 Pages.

Let $X$ be a complex projective manifold $X$. If a rational cohomology class can be approximated by irreducible subvarieties in a particular way, then it is represented by an algebraic cycle with rational coefficients.
Category: Geometry

Extraction of Algebraic Cycles

Authors: Bin Wang
Comments: 7 Pages.

Let $X$ be a complex projective manifold. We first define the positivity of homology classes in $H_{2k}(X;mathbb Q)$.From the positivity, we extract algebraic cycles. Precisely, we show if $tauin H_{2k}(X;mathbb Q)$ is weaklypositive, i.e. $tau (phi)geq 0$ for allthe real, closed forms $phi$ with the strongly positive $(k, k)$ component, then there are an algebraic cycle $V$ with positive coefficients and a positive current $S$ of bidimension $(k, k)$ such thatbegin{equation}tau=[T_V+S]end{equation}where $T_{bullet}$ denotes the current of integration over the chain $V$, and $[bullet]$ denotes the homologyclass represented by $bullet$.
Category: Geometry

Why Mass Doesn't Increase with Velocity

Authors: David M. Bower
Comments: 3 Pages.

Ever since the advent of special relativity over one hundred years ago, there has been considerable debate over the concept of "relativistic mass", i.e., whether mass increases with velocity. Although the equations of Einstein’s version of special relativity (ESR) can be interpreted to show that mass increases with velocity (and that such an increase of mass with velocity seems logically required to explain that light speed is a limiting velocity), assuming that mass increases with velocity is associated with an insurmountable logical contradiction (in view of a previously published paradox involving ESR). This insurmountable contradiction suggests that it is meaningless to postulate that mass increases with velocity
Category: Relativity and Cosmology

Psychology Is An Unfalsifiable Pseudo-Science—A First-Principle Deconstruction of The Epistemological Failure Of Psychology

Authors: Leland Xing
Comments: 26 Pages.

This paper presents a first-principle deconstruction of psychology, arguing that it operates fundamentally as an unfalsifiable pseudo-science. We highlight that clinical psychology relies entirely on subjective self-reporting and circular diagnostic frameworks, its severe reproducibility crisis, the mathematically invalid statistical practices within the field, and how descriptive behavioral categories like ``mental illnesses'' are improperly used as root causes in a circular logical loop. We further dismantle common defenses of the field—including philosophical attempts to redefine the scientific method without the requirement of falsifiability and the retroactive rationalizations used to defend psychological practices. We conclude that the foundational mechanics of psychology are indistinguishable from astrology. Hence, we propose that society cease classifying psychology as a science, as expanding the definition of science to accommodate psychological methodologies would logically require granting the exact same scientific legitimacy to astrology.
Category: Social Science

Occluded Person Re-identification via Spatio-Semantic Topology Guidance and Geometry-Aware Semantic Alignment

Authors: Xiaohao Xie, Wenhua Jiao, Caoyu Chen
Comments: 10 Pages.

Identifying pedestrians under heavy occlusion (Occluded Re-ID) remains highly challenging, primarily because obstacles inevitably corrupt human structural integrity and induce severe spatial-semantic mismatching. Current approaches either struggle to recover fragmented topological features or blindly trust fragile pose estimators, making them highly vulnerable to complex background interference. To overcome these bottlenecks, we present textbf{SSGA}, a unified multi-modal enhancement framework that seamlessly couples topology restoration, cross-modal feature calibration, and semantic-driven decoding. Specifically, a Spatial Guided Graph Convolutional Network (SG-GCN) is first formulated to repair corrupted local structures by embedding physical spatial constraints into visual patch representations. Moreover, to tackle cross-modal mismatching, we propose the Spatio-Semantic Dual-Metric Greedy Alignment (SSDA) strategy. By anchoring visual embeddings to reliable skeletal cues under strict geometric boundaries, SSDA effectively eliminates semantic ambiguity such as symmetrical limb confusion. Furthermore, a Geometry-Aware Semantic Matching (GASM) module is designed to employ learnable semantic queries for dynamically extracting part-level features, which forces the network to highlight visible body regions and filter out occlusion noise. Comprehensive evaluations across five standard benchmarks validate the superiority of our SSGA framework, which establishes new state-of-the-art results and yields substantial improvements particularly on the severely occluded Occluded-Duke and Occluded-ReID datasets.
Category: Artificial Intelligence

A Multi-Background Normalization and Dynamic Meta Feature Mining Approach for Person Re-Identification

Authors: Xiaohao Xie
Comments: 10 Pages.

Person re-identification (ReID) aims to retrieve pedestrians across cameras, facing challenges from differences in perspective, background, and lighting, which introduce noise and hinder key feature extraction. Existing methods, often relying on normalization or generative data augmentation, suffer from limitations such as neglecting camera label information or the unreliability of two-stage learning. To address this, we propose a one-stage architecture, M-MBNNet, consisting of MBN (Multi Background Norm) and MetaRep (Meta-Representation for Adaptive Metric) modules. MBN uses a camera-wise Assignment Gate and Multi-aggregation Norm to align and normalize backgrounds, reducing interference and enhancing person-relevant feature robustness. MetaRep bridges representation and metric learning, leveraging mutual information (quality measures) to dynamically adjust asymmetric metrics for consistent multi-task convergence. It also incorporates curriculum learning to dynamically emphasize either inter-class separability or intra-class compactness. M-MBNNet offers a systematic approach to extracting key pedestrian features and resolving cross-camera differences through active alignment and adaptive optimization. We achieve strong results on two baselines—one mainly for representation and one for metric learning—demonstrating the method's scalability.
Category: Artificial Intelligence

Old Quantum Theory or Quantum Mechanics: a Look at the Spectrum of the Hydrogen Atom

Authors: Jorma Jormakka
Comments: 10 Pages.

The article compares the derivation of the principal energy states in the hydrogen atomas it is done in Quantum Mechanics and in old quantum theory. The method in old quantum physics makes a lot more sense. Section 3 explains why Schr"odinger's momentum substitution only worksin one dimension and there it is basically the same as Bohr's quantization rule for the angularmomentum, which is the same as de Broglie's hypothesis in the application where this hypothesisworks. The conclusion of the article is that Quantum Mechanics and Quantum Field Theory incorrectlyhave generalized Schr"odinger's one-dimensional momentum substitution to a many dimensional momentum substitution.
Category: Quantum Physics

Phoenix Numbers

Authors: Walter A. Kehowski
Comments: 135 Pages. (Note by viXra Admin: Please cite listed scientific reference and submit article written with AI assistance to ai.viXra.org)

If the digits of number n (in base b) can be split p|q so that n=rq rp$, where rp and rq are the numbers formed by reversing the digits of p and q, respectively, then n is called a phoenix number in base b. If q has k digits in base b, then n is called a k-Phoenix number in base b. For example, 1.1.n.n|b is 1-Phoenix in base b=n^2-1. The existence of infinitely many k-phoenix numbers in any base b is claimed, but not proven.
Category: Number Theory

Global Regularity of 3D Incompressible Navier-Stokes Equations via Deterministic Harmonic Resolution

Authors: Barry Lee Guevremont
Comments: 10 Pages.

For any smooth, divergence-free initial velocity field u0∈Hs(R3)mathbf{u}_0 in H^s(mathbb{R}^3)mathbf{u}_0 in H^s(mathbb{R}^3) with s≥1/2s ge 1/2s ge 1/2, there exists a unique global-in-time smooth solution u(x,t)mathbf{u}(x, t)mathbf{u}(x, t). We prove this by projecting the 3D incompressible Navier-Stokes equations onto a discrete symmetric velocity model based on the D3Q13 lattice with fixed temporal grain δ>0delta > 0delta > 0. Using a Chapman-Enskog expansion we derive a strict energy equality (the Leray-Hopf inequality becomes an equality) and a stabilizing quartic term in the enstrophy evolution. This yields a uniform time-independent bound on ∥∇u∥L∞|abla mathbf{u}|_{L^infty}|abla mathbf{u}|_{L^infty} and satisfies the Beale—Kato—Majda criterion for all t≥0t ge 0t ge 0. Self-similar singularities are topologically forbidden by the spectral cutoff of the lattice, and the formal continuum limit δ→0delta to 0delta to 0 is shown to be inconsistent. The result resolves the global regularity problem for the 3D incompressible Navier-Stokes equations on the resolved manifold.
Category: Mathematical Physics

The Duality of Geometric Primality: Subgroups and Quotients Shape Polygons and Fractals

Authors: Youssef Ayyad
Comments: 35 Pages. (Header blocked by viXra Admin)

This article presents a systematic exposition of the duality between two complementary geometric characterizations of prime numbers, united through Pontryagin duality for finite cyclic groups. The first characterization is internal: an integer n ≥ 2 is prime if and only if everyequitable partition of the vertices of the regular n-gon Pn is fixed classwise only bythe identity rotation. We establish a canonical bijection between equitable partitionsof Pn and subgroups of the cyclic group Cn ∼= Z/nZ (Theorem 3.6). The second characterization is external and fractal: an integer n ≥ 2 is prime if and only if the regular polygon Gn is a primitive leaf in the universal subdivisiontree—that is, Gn has no ancestors other than the root G1. We prove that Gn appears in the fractal hierarchy F(m) generated by Gm if and only if m | n (Lemma 4.4), establishing a bijection between fractal ancestors of Gn and quotients of Cn (Theorem 4.8). These two characterizations are not merely equivalent reformulations of the arithmetic definition of primality; they are canonically dual. The duality is mediated bythe Pontryagin isomorphism Φ : Sub(Cn) → Quot(Cn) sending a subgroup H ⊆ Cn to its quotient Cn/H. For each proper divisor d | n with 1 < d < n, this duality pairs:u2022 Internally: the subgroup Hn/d ⊆ Cn of order n/d, realized geometrically as an equitable partition Pd of Pn into d classes; u2022 Externally: the quotient Cn/Hn/d ∼= Cd, realized geometrically as the ancestor polygon Gd in the fractal tree. These correspondences fit into a commutative diagram (Theorem 5.1) that unifies the two geometric visions: the same divisor d manifests simultaneously as a symmetriccoloring of the polygon (internal witness) and as a smaller polygon from which Gn descends (external witness). We develop this duality, with complete proofs, extensive examples, and visualizations. The framework then generalizes naturally: for arbitrary finite groups, rings,and modules, the duality between substructures and quotient structures can be rendered visible through dual geometric realizations. This suggests a broad research program in dual geometric algebra, where abstract algebraic simplicity—the absence of non-trivial substructures or quotients—acquires concrete geometric meaning.
Category: Algebra

Asymptotic Behavior of the Erdos Consecutive Sum Sequence A003462

Authors: Jehan Singh
Comments: 4 Pages. CC BY 4.0 license (Note by viXra Admin: Please cite listed scientific reference and submit article written with AI assistance to ai.viXra.org)

We study the self-generating consecutive-sum greedy sequence (a_n)_{n ≥ 1}, defined by a₁ = 1, a₂ = 2, and for k ≥ 3, a_k is the least integer greater than a_k−1 expressible as a sum of at least two consecutive earlier terms. We prove that the auxiliary sequence b_n := a_n − n is nondecreasing and unbounded, showing that infinitely many positive integers are omitted. We also provide an explicit Binet-type formula for a_n, enabling exact computation of terms, and discuss implications for the sequence’s asymptotic growth.
Category: Combinatorics and Graph Theory

Relativistic Energy Conservation in Gravitational Motion Across Scales

Authors: Oliver R. Jovanovic
Comments: 13 Pages.

I present an empirically grounded, effective description of gravitational dynamics. In my view, a full quantitative description would require the formalism of general relativity, a closely related extension, or an appropriate replacement, which is beyond the scope of this work.When a rubber ball is pressed against the floor, its internal energy—and consequently its mass—increases by Δm = ΔE/c²; a similar effect occurs when a body is lifted. Building on this principle, the gravitational formulation proposed here avoids singularities at the centers of black holes. In regions where rs exceeds r, gravity becomes repulsive, which can be interpreted as an effective contribution similar to dark energy. The framework also provides a mechanism consistent with quark confinement, while all resulting equations remain closely aligned with those of general relativity.
Category: Relativity and Cosmology

A Geometric Proof of Pi's Irrationality

Authors: Timothy Jones
Comments: 4 Pages. This substantially refines other geometric arguments for proving pi irrational.

Using two simple TI-84 programs we demonstrate how lines with rational ticks marks when wrapped around a circle can't locate the vertical radius at Pi/2. This implies that Pi/2 is irrational. The programs generate illustrations that yield a geometric proof.
Category: Number Theory

Dark Matter - Is it Needed?

Authors: Hartmut Schwab
Comments: 15 Pages.

The idea that the outer stars of a galaxy resp. the outer galaxies of a cluster of galaxies are rotating too fast around their gravitational centres and therefore can not be kept on their orbits by the gravitation of the baryonic matter leads to the assumption of extra matter, the u201edark matter", whose gravitation is suited to keep the outer stars/galaxies on their orbits.It is demonstrated that if the gravitational acceleration as a function of the distance from the gravitational centre is determined correctly, the observed orbital velocities can be explained solely by the baryonic matter and Newton’s laws and therefore u201edark matter" is not needed. It is not even necessary To explain the other effects ascribed to it, u201edark matter" is not neeeded either as the higher gravitational accelerations necessary for these effects are delivered solely by the baryonic matter.
Category: Astrophysics

A Gravitating Dark-Energy Hypothesis to Replace Mond

Authors: Remi Cornwall
Comments: 18 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

This paper completes a series of earlier papers on the Cosmological Constant as compressible fluid-like zeropoint energy, which acts as a 2nd order perturbation in the stress-energy tensor; this preceded an earlier sketch for a means for Dark-Energy to gravitate. We suggest a replacement to ad-hoc MOND type theories with the theory developed herein, in the light of recent DESI and JWIST discoveries, with a fully covariant version of our earlier gravitating dark-energy model: we show that dark-energy can gravitate if it is considered to be in compression by tidal effects; also it sets a natural cusp-like size limit to galaxies and clusters. A relation is found between the slope of the galactic rotation curve and the slope of the dark-energy/matter zone is found too. An earlier proof by the author that MOND type theories are not Heisenberg Uncertainty Principle compatible is cited here. Finally we ask if an extra-repulsive form of dark-energy may prevent collapse to singularity in Black hole solutions. All-in-all, this paper is a semi-classical treatment of gravity with vacuum corrections that might manifest on the large-scale.
Category: Relativity and Cosmology

On the Justification for Using a Dynamic Gravitational Field in an Expanding Universe

Authors: Pavlo Danylchenko
Comments: 4 Pages.

The feasibility of using the equations of the dynamic gravitational field to reflect the expanding Universe has been proven. Only thanks to this, the Hubble velocity of matter will not exceed the velocity of light at the event horizon of the Universe. The identity of the parameter b of the Schwarzschild solution of the equations of the gravitational field to the square of the relative frequency of the electromagnetic interaction of microobjects of matter and the equivalence of the limit velocity of matter to this parameter in its state of immobility has been justified. The falsehood of associating the parameter b with the coordinate velocity of light of the General Relativity (GR) has been proven.
Category: Relativity and Cosmology

Gravimetry and The Era of Development

Authors: Abdelmajid Ben Hadj Salem
Comments: 31 Pages. In French

This [article] represents the national report about the gravimetry activity in Tunisia, of the year 1970.
Category: Geophysics

On the Onset of Ultraviolet Turbulence in Quantum Chromodynamics

Authors: Ervin Goldfain
Comments: 15 Pages.

We derive the Renormalization Group (RG) behavior of non Abelian gauge theory under the assumption that spacetime has a scale dependent effective dimensional deviation in the deep ultraviolet (UV) and approaching zero in the infrared (IR). We derive the RG equation with dimensional fluctuations, cast it as a stochastic differential equation, and solve the associated Fokker—Planck equation. We show that the usual asymptotically free model of Quantum Chromodynamics (QCD) fails in the deep UV; instead, the coupling exhibits intermittent behavior, stemming from the multiplicative noise induced by dimensional fluctuations. We find that this turbulent regime leads naturally to a multifractal attractor, consistent with a Cantor—Dust spacetime structure and in line with our work on fractal spacetime description of ultraviolet physics.
Category: High Energy Particle Physics

A Derivation of the Alternating Power Sum Formula

Authors: Samuel Datu A. Castelo
Comments: 3 Pages. (Note by viXra Admin: Please cite listed scientific reference and submit article written with AI assistance to ai.viXra.org)

This paper presents a derivation of the closed-form expression for the alternatingpower sum without employing Euler polynomials, which are traditionally used in suchformulations. Instead, the derivation utilizes the shifted series method together withdifferentiation techniques to construct a polynomial representation for the sum. Theresulting expression is then connected to classical number-theoretic constants throughthe Riemann zeta function and Bernoulli numbers. This approach provides an alternative and more elementary framework for obtaining the alternating power sum formulawhile avoiding the formal machinery of Euler polynomials.
Category: Number Theory

Pure Primes: A Digit Restricted Prime Class Defined by Partition Primality

Authors: Christoper Mututu
Comments: 13 Pages. (Note by viXra Admin: Please cite listed scientific references)

We introduce and rigorously define a new class of prime numbers, which we term as pure primes. A natural number is classified as a pure prime if, for every contiguous partition of its decimal representation into equal length segments, each segment is itself a prime number. Restricting the digits to the prime set {2, 3, 5, 7}, we enumerate pure primes across all digit lengths. Specifically, our results establish the following counts: There are 4 total 1-digit pure primes. There are 4 total 2-digit pure primes. There are 15 total 3-digit pure primes. There is only 1 4-digit pure prime. There are 128 total 5-digit pure primes. There are 0 total 6-digit pure primes. There are 1325 total 7-digit pure primes. There are 0 total 8-digit pure primes. There are 469 total 9-digit pure primes. There are 0 total 10-digit pure primes. There are 214432 total 11-digit pure primes. There are 0 total 12-digit pure primes. There are 2884201 total 13-digit pure primes. There are 10 total 14-digit pure primes. There are 236 total 15-digit pure primes. As a result, the total pure primes across 1-15 digits are 3100825. These numbers span a huge range from 1-digit primes 2, 3, 5, 7 up to 15-digit primes in the quadrillion fully enumerated by our exhaustive computation. While a formal proof of absolute finiteness remains open, this extensive enumeration demonstrates that within this range, the class of pure primes is tightly constrained and structurally self-limiting. The partition invariance requirement imposes increasingly restrictive combinatorial conditions as the digit length grows. Empirically, this leads to long stretches of digit lengths admitting no pure primes. While these observations do not constitute a proof of finiteness, they indicate strong structural sparsity within this digit constrained prime class. This could hint at deep links between digit partition invariance and finiteness properties analogous to those conjectured in other constrained number sets. Our exhaustive computational investigation reveals strong structural constraints. Pure primes exist only for certain digit lengths with multiple lengths producing no examples. Beyond its combinatorial elegance, the discovery of pure primes opens new avenues for research into digit partition invariance, prime density constraints and the structure of prime subsets in discrete number spaces. These findings suggest a previously unrecognized form of order in the prime landscape, providing both a novel mathematical object and a framework for exploring finiteness within prime number theory.
Category: Number Theory

The Set of Real Numbers as a Function of the Set of Natural Numbers

Authors: Ayoub Zaroual
Comments: 4 Pages. (Note by viXra Admin: Please cite and list scientific references)

In this article, we prove that the number of elements in the set of positive real numbers Card (R+) can be expressed as a function of the number of elements in the set of natural numbers Card(N) using the formula: R+=N+0.9N(N-1)^2
Category: Set Theory and Logic

What Lies Behind It? an Attempt from Matter Field to Quantum Gravity

Authors: Kozo Koizumi
Comments: 19 Pages.

We present an algebraic framework demonstrating that the spacetime manifold is an emergent structure from the field module rather than a pre-existing background. By employing a Clifford-valued gauge construction, we show that Minkowski spacetime is rigorously identified through the algebraic consistency of the field module network. In this framework, the spin connection is integrated as a dynamical messenger field on the same footing as the standard gauge bosons. Furthermore, this construction naturally leads to a Yang-Mills type gravity sector, which is known to be 1-loop renormalizable and asymptotically free, thereby providing a consistent UV completion. This framework offers a structural resolution to the cosmological constant problem by ensuring that vacuum energy does not contribute to the field equations, providing a consistent foundation for integrating quantum gravity with the Standard Model without an a priori manifold.
Category: High Energy Particle Physics

Quadrature Approximation to the Magnus Exponent for Numerical Solution of Non-Autonomous Coupled Linear Differential Equations

Authors: Kenneth C. Johnson
Comments: 14 Pages. Added link to MATLAB code implementation.

The Magnus-exponent method of solving non-autonomous (variable-coefficient) coupled linear differential equations is reviewed, and three quadrature approximation formulas are derived with residual errors proportional to the 3rd, 5th, and 7th power of the integration interval size.
Category: General Mathematics

A Classical Mechanics Solution to Zeno's Arrow Paradox

Authors: Vladislav Smolenskij
Comments: 3 Pages. Added References section as requested by viXra Admin

The flying arrow paradox states that motion is impossible, as the arrow is motionless at every instant of time. Although the paradox has a mathematical solution, a physical uncertainty remains: is time continuous, or does it consist of numerous infinitesimally small intervals? Within the framework of classical mechanics, it is shown that the assumption of instantaneous rest (zero velocity at any moment) inevitably violates the laws of conservation of momentum and kinetic energy. A flying arrow cannot stop or resume its motion without external input. Consequently, the arrow cannot be "at rest" within an infinitesimally small interval of time, and/or time does not contain any "zeros" and flows continuously.
Category: Classical Physics

Solution to Einstein's Vacuum Equation With a Large Number of Lambda Terms

Authors: Mikhail Batanov-Gaukhman
Comments: 50 Pages.

It is proposed to increase the number of positive and negative Λ-terms in Einstein's vacuum equation to infinity. The solution to this equation leads to a closed Universe filled with a virtually infinite number of "corpuscles" (i.e., stable convex spherical vacuum formations) and "anticorpuscles" (i.e., stable concave spherical vacuum formations) with a hierarchical discrete set of radii. These "corpuscles" and "anticorpuscles" of different scales are nested within one another like Russian dolls. Thus, they form a multitude of hierarchical chains, all beginning with the core of a single largest "corpuscle" (i.e., the mega-Universe) and culminating in a single core of the smallest "corpuscle" (i.e., the instanton). As a result, a closed Hierarchical Cosmological Model was obtained, which allows us to outline the ways of solving many problems of modern physics, such as: baryon asymmetry of the Universe, confinement of quarks, geometrization of electric charge, gravity, dark matter and energy, etc. This article is a development and refinement of the Geometrized Vacuum Physics Based on the Algebra of Signature (GVPh&AS), presented in the articles [3,4,5,6,7,8,9, 10,11,12,13,14,15,16].
Category: Relativity and Cosmology

Ordinary Synchronization-Compensation Transformations of Coordinate and Time Increments in the People's World

Authors: Pavlo Danylchenko
Comments: 8 Pages. small correction to show correct article name in title bar of PDF file

The fallacy of using such a false parameter as the coordinate velocity of light in GR is proven. This coordinate velocity of light, unlike the limit velocity of matter, cannot in principle be less than the true velocity of matter. The suitability for use in the people's world of only ordinary synchronization-compensation transformations of increments of spatial coordinates and time is substantiated. These transformations, unlike the alternative to them ordinary Lorentz transformations (OLT), allow to proportionally synchronize all clocks that move in a gravitational field by inertia. The suitability of OLT (due to the inherent to OLT blueshift of the frequency of centripetal radiation instead of redshift) for use only in the comoving with expanding Universe frame of references of spatial coordinates and time is proven. Newton's law of gravity is obtained directly from the condition of no change in the flow of the proper time of matter during its inertial motion in a gravitational field. The fallacy of ignoring the compensation of gravitational dilation of time by the inertial motion of matter is most thoroughly substantiated. And this is in good agreement not only with relativistically invariant thermodynamics, but also with the equations of the dynamic gravitational field of both the Solar System and flat galaxies.
Category: Relativity and Cosmology

Pi's Irrationality: Geometry and Logic

Authors: Timothy Jones
Comments: 3 Pages. A reader gave suggestions to provide more details.

We give a proof of Pi's irrationality using geometry and some logic.
Category: Number Theory

Sigma-8 Anomaly as Potential Evidence for Fractal Spacetime (Part 2)

Authors: Ervin Goldfain
Comments: 36 Pages.

We conjectured in [1] that a non-vanishing and scale-dependent deviation of effective spacetime dimension from D = 4 generates corrections to the Poisson equation and to the cosmological clustering process. This sequel elaborates on how Fractional Poisson Equation offers a viable explanation of the Sigma 8 anomaly.
Category: Relativity and Cosmology

8

Authors: Bin Wang
Comments: 8 Pages.

We define and study infinite cycle classes - particular types of cohomology classes in the convex-cone-approximationof currents.Furthermore, this convex cone descends to a polyhedral cone in homology. This phenomenon implies that on a compact K"ahler manifold, infinite cycle classes are linear combinations of analytic subvarieties with real coefficients, and on a complex projective manifold, infinite cycle classes are algebraic cycle classes with rational coefficients.
Category: Geometry

Extraction of Complex Analytic Cycles

Authors: B. Wang
Comments: 10 Pages.

Let $X$ be a compact K"ahler manifold. We first define the positivity of homology classes in $H_{2k}(X;mathbb Q)$.From the positivity, we extract complex analytic cycles. Precisely, we show if $tauin H_{2k}(X;mathbb Q)$ is positive, i.e. $tau $ is represented by a closed, strongly positive current, then there are a complex analytic cycle $V$ with positive rational coefficients and a positive current $S$ of bidimension $(k, k)$ such thatbegin{equation}tau=[T_V+S]end{equation}where $T_{bullet}$ denotes the current of integration over the chain $bullet$, and $[bullet]$ denotes the homologyclass represented by $bullet$.
Category: Geometry

Global Regularity of 3D Incompressible Navier-Stokes Equations via Deterministic Harmonic Resolution

Authors: Barry L. Guevremont
Comments: Corrected version with fixed Lean 4 code, added images (coffee_cup.png and math_monster.jpg), and minor formatting improvements. 10 pages. Physics - Mathematical Physics category.

For any smooth, divergence-free initial velocity field uu2080 ∈ Hˢ(ℝ³) with s ≥ 1/2, there exists a unique, global-in-time smooth solution u(x, t). We prove this by establishing that the Leray-Hopf energy inequality is a strict equality and that the velocity gradient satisfies a uniform L∞ bound for all t ≥ 0. This closes the supercritical scaling gap and satisfies the Beale—Kato—Majda criterion, thereby proving global regularity of the 3D incompressible Navier-Stokes equations.
Category: Mathematical Physics

A Geometric Proof of Pi's Irrationality

Authors: Timothy Jones
Comments: 5 Pages. A reader provided some corrections.

We give a proof of pi's irrationality that references principles of set theory and cardinality within the context of basic geometric properties of a circle.
Category: Number Theory

A Geometric Proof of Pi's Irrationality

Authors: Timothy Jones
Comments: 5 Pages. Reflects many suggested ideas and corrections.

We give a proof of Pi's irrationality that references the basic geometric properties of a circle and principles of set theory and cardinality: the set of all lines with defined slopes includes all slopes with rational numbers; the radius given by an arc length of Pi/2 has an undefined slope; therefore it can't be rational.
Category: Number Theory

A Gravitating Dark-Energy Hypothesis to Replace Mond

Authors: Remi Cornwall
Comments: 18 Pages. Dimesional consistency of eqns. 9 and 12 corrected. Epsilon constant now halved in eqn. 9. Grammar and presentational changes (size of images etc.) (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)

This paper completes a series of earlier papers on the Cosmological Constant as compressible fluid-like zeropoint energy, which acts as a 2nd order perturbation in the stress-energy tensor; this preceded an earlier sketch for a means for Dark-Energy to gravitate. We suggest a replacement to ad-hoc MOND type theories with the theory developed herein, in the light of recent DESI and JWIST discoveries, with a fully covariant version of our earlier gravitating dark-energy model: we show that dark-energy can gravitate if it is considered to be in compression by tidal effects; also it sets a natural cusp-like size limit to galaxies and clusters. A relation is suggested between the slope of the galactic rotation curve and the slope of the dark-energy/matter zone is found too. An earlier proof by the author that MOND type theories are not Heisenberg Uncertainty Principle compatible is cited here. Finally we ask if an extra-repulsive form of dark-energy may prevent collapse to singularity in Black hole solutions. All-in-all, this paper is a semi-classical treatment of gravity with vacuum corrections that might manifest on the large-scale.Keywords: Action, Cosmological Constant, Covariance, Dark-Matter, DESI, Gravitating Dark-Energy, Uncertainty Principle, JWIST, ΛCDM, MOND, Renormalisation Group, Rotation Curves, Singularities
Category: Relativity and Cosmology

A Derivation of the Alternating Power Sum Formula

Authors: Samuel Datu Castelo
Comments: 3 Pages.

This paper presents a derivation of the closed-form expression for the alternatingpower sum without employing Euler polynomials, which are traditionally used in suchformulations. Instead, the derivation utilizes the shifted series method together withdifferentiation techniques to construct a polynomial representation for the sum. Theresulting expression is then connected to classical number-theoretic constants throughthe Riemann zeta function and Bernoulli numbers. This approach provides an alterna-tive and more elementary framework for obtaining the alternating power sum formulawhile avoiding the formal machinery of Euler polynomials.
Category: Number Theory

Real Atomic Effect of the Reducing of the Vacuum in the Hydrogen Atom by the Heavy Proton (Nuclear Matter)

Authors: Nekrasov Grigory Yu
Comments: 33 Pages.

The computer program, when it will be executed, then gives a possibility of computation andgaining of real effect of the reducing of vacuum by matter based on uncertainty relations, i.e. theeffect, appearing in the electron-positron vacuum near heavy nuclear matter, is provided, as apotential solution of the vacuum energy calculation problem.
Category: Nuclear and Atomic Physics