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[12] viXra:2602.0130 [pdf] submitted on 2026-02-22 21:44:53
Authors: Tanuj Kumar, Vandana [Doe]
Comments: 15 Pages.
In Ref. [1], a bounded vacuum-capacity framework was developed in which gravitation arises from static, localized deficits of a scalar vacuum-potential field normalized by the equilibrium condition Φ→c^2 in asymptotically flat spacetime. The same capacity principle was shown to imply a universal maximum force and a signal-speed bound v≤c.In the present work, we develop the dynamical sector of this framework. Linearized fluctuations about a localized vacuum-deficit configuration are shown to satisfy a Klein—Gordon—type equation, with the mass parameter determined by the intrinsic oscillation frequency associated with curvature of the vacuum response. The resulting plane-wave solutions yield an invariant quadratic dispersion relation of the form E^2=p^2 c^2+m^2 c^4, arising directly from the bounded stiffness-to-inertia ratio of the vacuum medium. The velocity-dependent inertial response m(v)=m/√(1-v^2/c^2 ) follows from this dispersion structure. In the low-momentum regime, the Schrödinger equation emerges as the nonrelativistic limit.The mass parameter entering both static and dynamical sectors is identified with the asymptotic vacuum-loading parameter defined in Ref. [1], relating gravitational and inertial mass to a single localized vacuum configuration. The results establish a unified dynamical description in which relativistic and nonrelativistic quantum wave equations arise from bounded vacuum capacity.
Category: Quantum Gravity and String Theory
[11] viXra:2602.0116 [pdf] submitted on 2026-02-21 20:07:17
Authors: Lee Jin Woo
Comments: 10 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org!)
Building upon the Relational-Informational Model (RIM), where spacetime geometry emerges from the Quantum Fisher Information of an observer’s reduced density matrix, I extend the framework to derive all four fundamental interactions from a single information-geometric object: the mixed-state Quantum Geometric Tensor (msQGT).The observer, defined as a subsystem within a globally static universe (Hˆtot|Ψ⟩ = 0), is generically described by a mixed state ρObs = TrSys|Ψ⟩⟨Ψ|. The real symmetric part of the msQGT—the Quantum Fisher Information Metric—reproduces the spacetime metric and gravitational dynamics as established in the companion paper. The imaginary antisymmetric part—the Uhlmann curvature—encodes gauge field strengths. Crucially, the gauge group is determined by the degeneracy structure of ρObs: non-degenerate spectra yield U(1) electromagnetism, two-fold degeneracies produce SU(2) weak interactions, and three-fold degeneracies generate SU(3) color symmetry. I derive the Einstein—Hilbert and Yang—Mills actions from a unified information-theoretic variational principle, interpret coupling constants as geometric rigidities tied to the eigenvalue structure of ρObs, and present explicit toy-model calculations. The frame-work identifies open problems including fermion generations, mass hierarchy, and the cosmological constant. These results suggest that all fundamental interactions arecomplementary manifestations of one underlying quantum information geometry.
Category: Quantum Gravity and String Theory
[10] viXra:2602.0096 [pdf] replaced on 2026-03-04 21:44:38
Authors: Tanuj Kumar, Vandana [Doe]
Comments: 25 Pages. Minor revision
We present a framework in which gravitation, inertia, and wave dynamics emerge from the response of a vacuum endowed with finite potential capacity. The theory is formulated in terms of a scalar vacuum-potential field whose absolute normalization is fixed by relativistic considerations, such that the equilibrium value at infinity equals c^2. Static relaxation of localized vacuum-potential deficits reproduces Newtonian gravity in the coarse-grained limit, while time-dependent redistribution generates propagating disturbances governed by a universal wave equation. Finite vacuum capacity implies intrinsic upper bounds on transmissible force and signal speed, yielding F_max=c^4/G and v≤c without invoking spacetime geometry or independent kinematic postulates. Vacuum microstructure further leads to a universal lattice dispersion relation with Planck-suppressed corrections,Δv/c≃-1/8 (E/E_P )^2,consistent with current astrophysical and gravitational-wave constraints. Gravitational redshift, lensing, horizons, and quantum correlations arise as energetic consequences of bounded vacuum response. The vacuum is modelled as a Dynamical Planck Network (DPN), providing a conservative and internally consistent bridge between relativistic gravitation and quantum wave phenomena.
Category: Quantum Gravity and String Theory
[9] viXra:2602.0093 [pdf] submitted on 2026-02-18 20:16:28
Authors: Alaya Kouki
Comments: 47 Pages.
From Restraint Relativity it is possible to consider a corpuscle as a packet of strings. The variation of the length of this packet is equal to the phase speed of the corpuscle as a packet of waves times an universal constant. In a system of units whereħ=c=a=1 the string vector becomes equal to the wave vector.From quantum mechanics we had deduce that a Planck oscillator can emit or absorb power only by quanta of power multiple integer of hν^2. This allows us to divide space-time in modular cells of action, momentum, energyu2026etc in the phase space geometry of the oscillator and resolve the problem of vacuum energy density. Planck system of units serves only for black holes topology. Space-time is a four open dimensions. More than four the dimension should be curled. Resolving gravitation field by computer machine with model using modular cells will be without singularities . Einstein equations of gravitational field are available only in a quasi static asymptotically flat Universe. Constants G & Λ of General Relativity are proportional to the inverse square of the Universe radius. We propose a new model for the hydrogen atom based on vacuum energy. Vacuum energy its self depends on the dimensionality of space. For weak gravitational field the Infrared cut off depends on real particle (the electron) and for strong gravitational field the Ultraviolet cut off depends on fictive particle ( Planck atom). The holographic principle depends largely on the dimensionality of the space. Also the principle of uncertainty depends in which gravitational field considered weak or strong: we introduce for this Planck fine structure, Planck charge, Planck electric permittivity, Planck electric impedenceu2026etc.
Category: Quantum Gravity and String Theory
[8] viXra:2602.0071 [pdf] submitted on 2026-02-11 20:46:17
Authors: V. F. Chibisov, I.V. Chibisov
Comments: 11 Pages. 22 figures.
This article is devoted to the presentation of the consequences of the models of the Corpuscular-Simple Theory (CST) [1], revealing the phenomena of gravity, antigravity, and non-reactive accelerated movement.
Category: Quantum Gravity and String Theory
[7] viXra:2602.0070 [pdf] submitted on 2026-02-11 20:41:00
Authors: Holger Döring
Comments: 4 Pages.
A model is proposed in which space itself is not a fixed background object, but arises from ultrafast rotating of orthonormal quantum states. The fundamental frequency is (Planck time). Observable spatial and temporal quantities emerge as averages over many Planck cycles. The model provides natural explanations for: Lorentz invariance as effective symmetry, gravitation as a statistical mean of rotational dynamics and cosmic fluctuations as frozen rotational phases. Furthermore, experimentally accessible signatures are predicted, including transverse correlations in the holometer, time noise in atomic clocks, and quadratic Planck corrections for the speed of light.
Category: Quantum Gravity and String Theory
[6] viXra:2602.0059 [pdf] submitted on 2026-02-08 19:50:50
Authors: Pavlo Kandyba
Comments: 13 Pages. (Note by viXra Admin: Please cite listed scientific reference and submit article written with AI assistance to ai.viXra.org)
A hypothesis based on expriment is proposed according to which the fabric of space-time isa superfluid subatomic medium in which matter exists as a process of vortex collapse ofcaverns (cavitation). Vortices are considered as thermodynamic phenomena associated withthermal motion and release of free energy of the medium, which is confirmed experimentallyin agreement with E = mc ^ 2, and are quantized due to superfluidity. Gravity is interpretedas a secondary effect of interaction of EM dipoles, which is supported by the hydrodynamicmodel.
Category: Quantum Gravity and String Theory
[5] viXra:2602.0057 [pdf] submitted on 2026-02-08 14:16:07
Authors: Chance Moore
Comments: 28 Pages.
Despite radical shifts in medical, technological, and scientific capability, the phenomenon of consciousness has remained stubbornly elusive, even a hundred years after we mapped Time and Space. While many theories have been proposed, the barrier between the physical and the mental remains unreconciled. In Idiostasis, I propose both an identity model and an ontologically mathematical framework as a mechanistic solution to the ‘hard problem of consciousness,’ by considering the Universe as its own Observer, through a process of continually shifting perspective through orders of complexity. By this method, I propose a singular contextualization of the currently accepted mathematics of quantum physics through quantized self-measurement, conceptually reproducing both particles and the strong force, mathematical constants, and quantum activity, as well as demonstrating inherent mechanisms for quantum entanglement, quantized gravity, dark energy, dark matter, and how both the Riemann �� (Zeta) Function and Euler’s Identity may have foundational applications.
Category: Quantum Gravity and String Theory
[4] viXra:2602.0049 [pdf] submitted on 2026-02-07 23:34:44
Authors: Bertrand Jarry
Comments: 31 Pages. Creative Commons Attribution 4.0 International (CC-BY 4.0) (Note by viXra Admin: For the last time, please submit article written with AI assistance to ai.viXra.org)
This paper presents a bottom-up unification of quantum mechanics, the Stan-dard Model, gravity, cosmology, and quantum gravity derived from a single minimal structure: a four-dimensional hypercubic spacetime lattice with local unitary nearest-neighbor evolution. All known physical laws emerge as continuum and long-wavelength limits of the discrete dynamics, while ultraviolet divergences and classical singularities are regulated by the lattice scale.
Category: Quantum Gravity and String Theory
[3] viXra:2602.0015 [pdf] submitted on 2026-02-02 20:52:43
Authors: Lee Jin Woo
Comments: 4 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
I present a rigorous formulation of the Relational-Informational Model (RIM), proposingthat spacetime geometry is not a fundamental background but an emergent property arisingfrom the entanglement structure between an observer and the universe. By defining theobserver as a quantum reference frame within a globally static universe (Htot|Ψ⟩= 0), I de-rive the spatial metric directly from the distinguishability of quantum states. Utilizing the Taylor expansion of the Bures distance, I prove that the physical metric corresponds to the Quantum Fisher Information Matrix (QFIM) of the observer’s reduced density matrix. Furthermore, addressing the critique regarding zero net flux in static Rindler frames, I employthe First Law of Entanglement Entropy involving the Modular Hamiltonian to demonstratethat the thermodynamic evolution of this informational geometry naturally obeys the Ein-stein field equations. This framework provides a concrete mathematical pathway unifyingQuantum Information Theory with General Relativity.
Category: Quantum Gravity and String Theory
[2] viXra:2602.0010 [pdf] submitted on 2026-02-02 17:57:12
Authors: Holger Döring
Comments: 4 Pages.
Studied is a product-polynomial truncation of the gravitational effective average action, exactly reproducing the Einstein—Hilbert sector and including the full set of quadratic curvature invariants in four dimensions.A non-Gaussian ultraviolet fixed point is found with exactly two relevant and two irrelevant directions, demonstrating the robustness of the Einstein—Hilbert sector under higher-curvature extensions. Quadratic curvature operators are irrelevant, dynamically generating the hierarchy required by gravitational effective field theory.No additional relevant Weyl-squared direction emerges, indicating a suppression of conformal spin-2 dynamics in the ultraviolet.The resulting RG flow predicts the infrared emergence of classical Einstein gravity and supports asymptotic safety as a consistent ultraviolet completion.
Category: Quantum Gravity and String Theory
[1] viXra:2602.0001 [pdf] submitted on 2026-02-01 03:51:04
Authors: Bertrand Jarry
Comments: 15 Pages. (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org) Creative Commons Attribution 4.0 International (CC-BY 4.0)
We present a complete bottom-up derivation of quantum mechanics and special relativity from a discrete spacetime lattice, with a rigorous framework for general relativity via induced gravity.The three-dimensional Schr¨odinger equation iℏ∂tψ = −(ℏ2/2m)∇2ψ emerges exactly from nearest-neighbor cellular automaton dynamics on a 4D hypercubic lattice in the con-tinuum limit. We prove Heisenberg uncertainty, quantum superposition, and entanglement as mathematical consequences of the discrete structure, with numerical validation to machine precision (< 10−14).Special relativity emerges when temporal spacing satisfies τ = a/c, yielding Minkowski metric ds2 = −c2dt2 + dx2 + dy2 + dz2 and mass-energy relation E2 = p2c2 + m2c4 from lattice dispersion.Newtonian gravity ∇2ϕ = 4πGρ is derived from variational principle on non-uniform lat-tices (Regge action), verified numerically to 90-95% accuracy. Complete GR tensor frame-work constructed with Schwarzschild solution verified to |Gµν | < 10−15.Most significantly, Newton's constant is analytically derived via induced gravity (Sakharov1967): G = −3π/[4Nf ln(am)] where a is lattice spacing, m is fermion mass, Nf is number of fermion species. With a ∼ ℓPlanck, m ∼ .46MPlanck, Nf = 3, we reproduce Gobs.The theory predicts quadratic Lorentz violation ∆E2 ∼ E4/E2QG with EQG ∼ 1016 GeV,testable with gamma-ray bursts.This represents: (1) first complete bottom-up QM derivation, (2) unified QM+SR emer-gence, (3) microscopic calculation of Newton's constant, and (4) falsifiable predictions at accessible energies.PACS: 03.65.Ta, 04.60.-m, 04.62.+v, 11.30.Cp.
Category: Quantum Gravity and String Theory
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