High Energy Particle Physics

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Recent submissions

Any replacements are listed further down

[538] viXra:1409.0118 [pdf] submitted on 2014-09-15 07:31:22

Should the Standard Model of Particle Physics Have Merely a Conventional Definition of the Electric Charge ?

Authors: Syed Afsar Abbas
Comments: 7 Pages.

It is most disconcerting that the Standard Model of particle physics defines, as fundamental a quantity as the electric charge, only conventionally and arbitrarily. We look into the nature of this conventionality and try to find an underlying structure to it. This brings in the Higgs field in a non-trivial manner, which points as to how the above arbitrariness and conventionality may be avoided. Next, the same is demonstrated as actually being part of the intrinsic mathematical structure of the Standard Model.
Category: High Energy Particle Physics

[537] viXra:1409.0063 [pdf] submitted on 2014-09-09 16:17:38

Fractal Spacetime and the Dynamic Generation of Mass Scales in Field Theory

Authors: Ervin Goldfain
Comments: 14 Pages.

As of today, the mechanism underlying the generation of mass scales in field theory remains elusive. Here we show how the concept of fractal spacetime having minimal deviations from four-dimensionality (minimal fractal manifold) can naturally account for the onset of these scales. A counter-intuitive outcome of this analysis is the deep link between the minimal fractal manifold and the holographic principle.
Category: High Energy Particle Physics

[536] viXra:1409.0061 [pdf] submitted on 2014-09-09 11:35:16

New Wave Equation for Ultrarelativistic Particles

Authors: Ginés R. Pérez Teruel
Comments: 15 Pages.

Starting from first principles and general assumptions based on the energy-momentum relation of the Special Theory of Relativity we present a novel wave equation for ultrarelativistic matter. This wave equation arises when particles satisfy the condition, $p>>m$, i.e, when the energy-momentum relation can be approximated by, $E\simeq p+\frac{m^{2}}{2p}$. Interestingly enough, such as the Dirac equation, it is found that this wave equation includes spin in a natural way. Furthermore, the free solutions of this wave equation contain plane waves that are completely equivalent to those of the theory of neutrino oscillations. Therefore, the theory reproduces some standard results of the Dirac theory in the limit $p>>m$, but offers the possibility of an explicit Lorentz Invariance Violation of order, $\mathcal{O}((mc)^{4}/p^{2})$. As a result, the theory could be useful to test small departures from Dirac equation and Lorentz Invariance at very high energies. On the other hand, the wave equation can also describe particles of spin 1 by a simple substitution of the spin operators, $\boldsymbol{\sigma}\rightarrow\boldsymbol{\alpha}$. In addition, it naturally admits a Lagrangian formulation and a Hamiltonian formalism. We also discuss the associated conservation laws that arise through the symmetry transformations of the Lagrangian.
Category: High Energy Particle Physics

[535] viXra:1408.0229 [pdf] submitted on 2014-08-31 06:59:09

Теория строения элементарных частиц Theory of the Structure of Elementary Particles

Authors: Bakhmetov Sergey Petrovich Bahmetov Sergey Petrovih
Comments: 19 Pages.

В теории даны определения для гравитационного, электромагнитного и ядерного взаимодействий, постоянной тонкой структуры, удельной энергии связи, черной дыры. Представлены геометрические модели для электрона, протона, нейтрона, ядра атома дейтерия, п - мезона, м - мезона. Найдены численные значения для постоянной тонкой структуры и отношения массы протона, нейтрона, п - мезона, м - мезона к массе электрона. In theory, given the definition of the gravitational, electromagnetic and nuclear interactions, the fine structure constant, the specific binding energy of the black hole. Shows the geometric model for the electron, proton, neutron, nucleus of an atom of deuterium, n - meson, m - meson. Found numerical values ​​for the fine structure constant and the ratio of the mass of the proton, neutron, n - meson, m - meson to the mass of the electron.
Category: High Energy Particle Physics

[534] viXra:1408.0224 [pdf] submitted on 2014-08-31 01:11:08

The Wave Equation for Particle Energy and Interaction

Authors: Jeff Yee
Comments: 52 pages

A new wave equation is proposed to calculate subatomic particle energies, including rest mass, photon absorption and emission, and annihilation properties. It is suggested that this wave equation is the link between classical and quantum equations, and shows the derivation of such equations, including relativity. Evidence in support of a wave equation is presented in this paper by accurately calculating the energy of lepton particles, the hydrogen spectral series and the ionization energies for elements from hydrogen to calcium. This paper also proposes that a fundamental particle is the building block for all other subatomic particles and is validated by the new wave equation.
Category: High Energy Particle Physics

[533] viXra:1408.0222 [pdf] submitted on 2014-08-31 05:38:43

Quantum F-matrix Theory

Authors: Peter Hickman
Comments: 9 Pages.

Yang–Mills Theory coupled to Gravitation is found, using the 6d spaces [1], f-matrices which are doublets of gamma matrices and spin-vectors. Lagrangians for the fermion sector with internal symmetry G=SU(4) coupled to Gravitation, and the scalar sector with quadratic potentials are derived. Calculations given for Higgs bare mass 125.3GeV, Dark matter scalar particle mass 41.8GeV, the cosmological constant 1.15e-52 m-2, Top quark mass 172.7GeV, Higgs VEV 246.2GeV. Inflaton field is a negative complex potential. Electric charges of quarks and leptons are determined. Matter-antimatter asymmetry is resolved. Symmetry breaking of G results in QCD SU(3), QED U(1), and Chiral Electroweak group SU(2)xU(1) is an emergent interaction are the only other gauge groups acting on 3 generations.
Category: High Energy Particle Physics

[532] viXra:1408.0196 [pdf] submitted on 2014-08-28 11:24:43

Bootstrapping Generations

Authors: Alejandro Rivero
Comments: 3 Pages. Old paper expunged of Koideish references.

A supersymmetric version of Chew's "democratic bootstrap" argument predicts the existence of three generations of particles, with a quark, of type "up", more massive that the other five.
Category: High Energy Particle Physics

[531] viXra:1408.0185 [pdf] submitted on 2014-08-27 07:41:44

Protons Are Perfectly Stable or Their Lifetime is Enormous

Authors: Lubomir Vlcek
Comments: 4 Pages.

Stable particles (p +, n0, D, He-3, α) moving with speeds ( 0,3 c – 0,99 c ) creates baryons and mesons. Stable electrons moving with speeds ( 0,99 c – c ) creates leptons (μ−, τ−), neutrinos (νe, νμ, ντ) and bosons W +, W-, Z. Speeds of electrons and protons in atoms are smaller. For example: An electron moving at a speed ve= 0,003c creates spectral line Hα. Weak interactions are caused with stable electrons, which creates leptons, neutrinos and bosons W +, W-, Z. The strong interactions are caused with stable particles (p +, n0, D, He-3, α ), which creates baryons and mesons. Therefore creation and annihilation operators in physics are irrelevant. Decay modes „elementary particles“
Category: High Energy Particle Physics

[530] viXra:1408.0162 [pdf] submitted on 2014-08-24 15:09:43

The Higgs Vacuum.The Particles Of The Standard Model And The Compliance With the Energy-Momentum Equation. The Necessary Existence Of the Axion. Stop Quark Mass.

Authors: A.Garcés Doz
Comments: 11 Pages.

In this paper it is demonstrated that all the masses of the standard model particles; including the Higgs boson h; with nonzero rest mass, comply with the equation of energy-momentum. The model Higgs vacuum corresponds to a virtual vacuum, for which the contribution of particles with zero rest mass is null (photon, gluon, graviton) .With the best values ​​of the masses of the particles (Particle Data Group), it is found that axion mass has to be extremely small. Also the theoretical model Higgs vacuum, a completely new model based on the lattice R8 and sixteen matrix elements of energy; corresponding to the four solutions of the equation of energy-momentum (isomorphism with the four components of the scalar field. One complex doublet ); to be factored into two factors with real and imaginary components of energy. Of this new model Higgs vacuum; naturally get the beta angle. Stop quark mass is obtained by solving the equation of radiative mass correction Higss boson, h, to one loop. The exact determination of the beta angle, allows calculating the mass of the stop of about 1916 GeV. Similarly, a mass for axion is proposed of around 110 micro eV .
Category: High Energy Particle Physics

[529] viXra:1408.0153 [pdf] submitted on 2014-08-23 11:32:31

Absence of Non-Trivial Supersymmetries and Grassmann Numbers in Physical State Spaces

Authors: Hironobu Kihara
Comments: 10 Pages.

This paper reviews the well-known fact that nilpotent Hermitian operators on physical state spaces are zero, thereby indicating that the supersymmetries and ``Grassmann numbers" are also zero on these spaces. Next, a positive definite inner product of a Grassmann algebra is demonstrated, constructed using a Hodge dual operator which is similar to that of differential forms. From this example, it is shown that the Hermitian conjugates of the basis do not anticommute with the basis and, therefore, the property that ``Grassmann numbers" commute with ``bosonic quantities" and anticommute with ``fermionic quantities", must be revised. Hence, the fundamental principles of supersymmetry must be called into question.
Category: High Energy Particle Physics

[528] viXra:1408.0152 [pdf] submitted on 2014-08-23 08:00:33

A Relativistic Newtonian Mechanics Predicts with Precision the Results of Recent Neutrino-Velocity Experiments

Authors: Ramzi Suleiman
Comments: 8 Pages.

The research on quasi-luminal neutrinos has sparked several experimental studies for testing the "speed of light limit" hypothesis. Until today, the overall evidence favors the "null" hypothesis, stating that there is no significant difference between the observed velocities of light and neutrinos. Despite numerous theoretical models proposed to explain the neutrinos behavior, no attempt has been undertaken to predict the experimentally produced (v-c)/c results. This paper presents a simple novel extension of Newton's mechanics to the domain of relativistic velocities. For a typical neutrino-velocity experiment, the proposed model is utilized to derive a general expression for (v-c)/c. Comparison of the model's prediction with results of six neutrino-velocity experiments, conducted by five collaborations, reveals that the model predicts all the reported results with striking accuracy. Because in the proposed model, the direction of the neutrino flight matters, the model's impressive success in accounting for all the tested data, indicates a complete collapse of the Lorentz symmetry principle in stringent tests involving quasi-luminal particles, moving in two opposite directions. This conclusion is support by previous studies on the linear Sagnac effect, indicating that the travel-time difference between two counter-propagating light beams, relative to a uniformly moving fiber, is identical one detected in radial motion.
Category: High Energy Particle Physics

[527] viXra:1408.0151 [pdf] submitted on 2014-08-23 04:29:00

Massless Electroweak Field Propagator Predicts Mass Gap

Authors: Nigel B. Cook
Comments: 3 Pages.

There are two contributions to the propagator, one from massless field quanta which doesn’t have a running coupling, and one from massive field quanta which generate the logarithmic running contribution to mass above the IR cutoff of about 0.5 Mev, which is utilized in renormalization procedures. In other words, the observed particle mass below 0.5 Mev (where no pair production, vacuum polarization, or running of mass and coupling occur), is predictable from integral of the massless Coulomb field potential Feynman diagram. (This paper further develops the theory discussed in “Mechanism of renormalization can predict particle masses,” N. B. Cook, vixra, 24 July 2014.)
Category: High Energy Particle Physics

[526] viXra:1408.0114 [pdf] submitted on 2014-08-18 09:00:15

Dirac-Like Equation and the Excited States of the Nucleon

Authors: P. R. Silva
Comments: 09 paged, 18 references

We use a Dirac-like equation with a linear potential in order to evaluate the energy levels of the excited states of the Y-shaped color-electric flux tubes, describing the quarks interactions inside the nucleon. We have neglected the bare-masses of the quarks, and the obtained results reproduce the energy of the centroid of the excited states of the nucleon as well as the possible creation of nucleon-antinucleon pairs.
Category: High Energy Particle Physics

[525] viXra:1408.0109 [pdf] submitted on 2014-08-17 18:41:10

Historical Perspective on the Impedance Approach to Quantum Field Theory

Authors: Peter Cameron
Comments: 9 Pages.

The absence of impedances from the Standard Model is most remarkable. Impedance is a fundamental concept, of universal validity. Impedances govern the flow of energy. In particular, the coupling of the photon to matter happens in the near field. The absence of the photon near-field impedance in photon-electron interactions is the most basic and profound example of this remarkable circumstance, sitting unnoticed in the foundation of quantum electrodynamics. One cannot obtain a complete understanding of such interactions without examining the role of impedances. How this essential principle escaped notice in the development of quantum field theory is outlined, and consequences of its inclusion in our present understanding are explored.
Category: High Energy Particle Physics

[524] viXra:1408.0103 [pdf] submitted on 2014-08-17 07:24:10

A Derivation of the Negative Binomial Distribution

Authors: M. Hafidouni
Comments: 17 Pages.

The negative binomial distribution is derived as a solution of a linear recurrence equation with an appropriate set of constraints
Category: High Energy Particle Physics

[523] viXra:1408.0094 [pdf] submitted on 2014-08-15 15:30:45

Fractal Propagators and the Asymptotic Sectors of Quantum Field Theory

Authors: Ervin Goldfain
Comments: 11 Pages. Work in progress.

Charged Dirac propagators in the deep infrared (IR) and ultraviolet (UV) sectors of particle physics no longer follow the prescription of perturbative quantum field theory (QFT). On sufficiently short distance scales, they acquire a fractal structure from radiative corrections contributed by gauge bosons. Here we show how fractal propagators in QFT may be analyzed using fractional field theory on space-times having minimal deviations from four-dimensionality. An intriguing consequence of this approach is the emergence of classical gravity as long-range and ultra-weak excitation of the Higgs condensate.
Category: High Energy Particle Physics

[522] viXra:1408.0089 [pdf] submitted on 2014-08-14 11:08:01

Wilson and Polyakov Loops of Gravitational Gauge Fields in Rindler Space

Authors: E.Koorambas
Comments: 12 Pages.

We will study the gravitational forces acting between static massive sources generated by exchange of massless gravitons within the framework of Quantum Gauge Theory Gravity .The gravitational force will be determined via Wilson loops and Polyakov loop correlation functions. This method will enable us to separate the contribution of the quantum mechanical transverse graviton from that of the classical longitudinal field. It will be the method of choice if one attempts to determine the gravitational static force in simulations of Quantum Gauge Theory Gravity on a Rindler space lattice.
Category: High Energy Particle Physics

[521] viXra:1408.0015 [pdf] submitted on 2014-08-03 19:06:47

Launching the Six-Coloring Baryon-Antibaryon Antisymmetric Iso-Wavefunctions and Iso-Matrices

Authors: Nathan O. Schmidt
Comments: 20 pages, 3 figures, accepted by the Hadronic Journal

In this work, we upgrade the Inopin-Schmidt quark confinement and baryon-antibaryon duality proof with Santilli's new iso-mathematics. For a baryon-antibaryon pair confined to the six-coloring kagome lattice of the Inopin Holographic Confinement Ring (IHCR), we construct a cutting-edge procedure that iso-topically lifts the antisymmetric wavefunctions and matrices to iso-wavefunctions and iso-matrices, respectively. The initial results support our hypothesis that transitions between the energy and resonance states of the hadronic spectra may be rigorously characterized by properly-calibrated iso-topic liftings. In total, these rich developments suggest a promising future for this emerging iso-confinement framework, which must be subjected to additional scientific inquiry, scrutiny, and exploration.
Category: High Energy Particle Physics

[520] viXra:1407.0211 [pdf] submitted on 2014-07-29 14:03:32

ATLAS, CMS Higgs Boson Data May Already Contain Clues for Solving Decay Rate Puzzle

Authors: Lamont Williams
Comments: 9 Pages.

ATLAS and CMS, the two principal laboratories operating at the Large Hadron Collider (LHC) at CERN, have made great strides in clarifying the properties of the newly discovered Higgs boson. In particular, they have tested how the particle decays to other particles, namely photons, Z bosons, W bosons, tau particles, and bottom quarks. Although the decay rates of these particles have been compatible with those determined through the Standard Model, they have not been an exact match. This report shows how data from ATLAS and CMS may already be solving the puzzle of the incongruent decay rate values, while also revealing a potential, and currently unrecognized, proportional relationship at work in the decay mechanisms of the Higgs particle.
Category: High Energy Particle Physics

[519] viXra:1407.0186 [pdf] submitted on 2014-07-24 10:23:58

Mechanism of Renormalization Can Predict Particle Masses

Authors: Nigel B. Cook
Comments: 16 Pages.

An improved mechanism for understanding the quantum field theory of fundamental particle masses is presented. Yoichiro Nambu, founder of QCD color charge, in 1952 argued in his paper "An Empirical Mass Spectrum of Elementary Particles" (Progress in Theoretical Physics, v7, 1952, pp. 595-6): "It seems to be a general conviction of current physicists that the theory of elementary particles in its ultimate form could or should give the mass spectrum of these particles just in the same way as quantum mechanics has succeeded in accounting for the regularity of atomic spectra. ... it may perhaps be too ambitious and rather unsound to look for an empirical ‘Balmer’s law’. Nevertheless we should like here to present one such attempt because it happens to be extremely simple ..." Virtual fermions are radially polarized (driven further apart) by the electric field in which they formed. This polarization supplies the virtual fermions energy, at the expense of electric field, which is thus partly “screened.” The energy supplied to virtual fermions by their radial polarization extends their lifetime beyond Heisenberg’s h/E. This supply of extra energy moves “virtual” fermions towards the real mass shell, so they briefly obey Pauli’s principle. The absorbed extra energy increases the virtual fermion pair survival time towards that of onshell particles, so the Pauli exclusion principle begins to apply to those virtual fermions, structuring the vacuum virtual fermions into “shells” by analogy to electron orbits, giving a simple pattern of discrete masses. Different isomers are possible explaining the generations and allowing a variety of weak decay routes, a mechanism for the CKM matrix and neutrino flavor oscillations. Because neutrinos only have weak charges (not electromagnetic charge or color charge), they have weak fields, producing on average little mass due to very occasional pair production, so they weakly interact with gravity (gravity’s charge is mass), thus explaining why neutrinos have so little mass.
Category: High Energy Particle Physics

[518] viXra:1407.0084 [pdf] submitted on 2014-07-12 05:53:33

On the Confinement of Quarks Without Applying the Bag Pressure

Authors: Mohammad Sharifi
Comments: 12 Pages.

We explain the fatal error in quantum chromodynamics. By applying this correction to the dynamics of quarks, we can confine quarks in hadrons. We will show why quarks do not obey the Pauli exclusion principle and why we cannot observe free quarks. In addition, we obtain the correct size of hadrons.
Category: High Energy Particle Physics

[517] viXra:1407.0037 [pdf] submitted on 2014-07-05 01:29:06

Internal Structures of Electron, Neutron, Proton and Nuclei – Particle Masses Are not Arbitrary

Authors: Jose P Koshy
Comments: 5 Pages. The ninth paper based on reality

The mass of neutron is slightly greater than1838 electrons. So it is argued that neutron contains 919 electron-positron pairs and that a positron is slightly heavier than electron. It can be shown that the minimum number of electron-positron pairs required to create a spherical structure with minimum imperfection is 919, thus validating the argument. A similar logic is applied to arrive at the structure of electron/positron. Based on these, it is argued that the natural choice of elementary particles is deterministic, and not random.
Category: High Energy Particle Physics

[516] viXra:1407.0015 [pdf] submitted on 2014-07-03 02:09:31

The Basic Structure and Properties of Hadrons

Authors: Yibing Qiu
Comments: 1 Page.

show the basic structure and properties of Hadrons
Category: High Energy Particle Physics

[515] viXra:1406.0168 [pdf] submitted on 2014-06-27 11:25:30

Multifractal Sets and the Dynamic Structure of the Standard Model

Authors: Ervin Goldfain
Comments: 17 Pages. Work in progress

We show that the Standard Model (SM) represents a self-contained multifractal set on spacetime having arbitrarily small deviations from four-dimensionality. All coupling charges residing on this background (gauge, Higgs and Yukawa) satisfy a closure relationship that a) tightly constrains the flavor and mass content of the SM and b) naturally solves the hierarchy problem, without resorting to new concepts reaching beyond the physics of the SM.
Category: High Energy Particle Physics

[514] viXra:1406.0129 [pdf] submitted on 2014-06-21 00:57:26

Theory of Colorless and Electrically Neutral Quarks and Colored and Electrically Charged Gauge Bosons

Authors: Eui Heung Jeong
Comments: 14 Pages.

We propose a model of interactions in which two states of a quark, a colored and electrically charged state and a colorless and electrically neutral state, can transform into each other through the emission or absorption of a colored and electrically charged gauge boson. A novel feature of the model is that the colorless and electrically neutral quarks carry away the missing energy in decay processes as do neutrinos.
Category: High Energy Particle Physics

[513] viXra:1406.0127 [pdf] submitted on 2014-06-20 11:59:55

The Higgs Boson and Quark Compositeness

Authors: Mario Everaldo de Souza
Comments: 4 Pages. Presented as a talk at Rencontres de Moriondes 2014, La Thuile, Italy

Considering that each quark is composed of two prequarks it is shown that the recently found Higgs boson belongs to a triplet of neutral bosons, and that there are two quadruplets of charged Higgs-like bosons. The quantum numbers of these bosons are calculated and shown to be associated to a new kind of hypercharge directly linked to quark compositeness. Particularly, the quantum number of the recently found Higgs boson is identified. A chart for quark decays via virtual Higgs-like bosons is proposed. Justifications for quark compositeness are presented.
Category: High Energy Particle Physics

[512] viXra:1406.0096 [pdf] submitted on 2014-06-15 20:29:16

50 Questions Related to Astrophysics, Climate, and Other Issues

Authors: Victor Christianto
Comments: 15 Pages. This article has never been submitted in a journal. Comments and suggestions are welcome.

This article consists of 50 questions related to astrophysics, climate, and other issues. These questions were posted in www.researchgate.net since Aug. 24, 2013 until June 16, 2014. Hopefully these questions can motivate further investigations.
Category: High Energy Particle Physics

[511] viXra:1406.0092 [pdf] submitted on 2014-06-15 04:45:58

The α-Theory. From Tachyonic to Bradyonic Universe. New Physical Scenarios

Authors: Vincenzo Maiella
Comments: Pages 205, 11 figures

The present book is devoted to the construction of a new theory for the elementary particles. This theory was born in order to resolve some open issues of the Standard Model, among which the research of a general equation for the description of all quantum particles in a unique way. Starting from the Pauli equation, two relativistic partial differential equations are obtained, one to the first and other to the second order, which are able to describe particles with arbitrary spin. The analysis of the energetic spectrum concerning such equations puts in evidence that the particles they describe have an imaginary mass. Then, the probability density study of these equations shows the principle of causality is not satisfied. Therefore, these equations characterize the tachyonic universe. We can see such a universe admits spontaneous symmetry breaking. In general terms, we can establish the broken symmetry might be a global characteristic of the tachyonic universe, due to its negative square energy, which made it unstable. Hence, it is possible to assume that after the hot Big-Bang there was another catastrophic cosmological event – said Big-Break – which made to break down the tachyonic universe in a positive square energy one (bradyonic universe), and from which the four fundamental interactions are probably generated. The transition from tachyonic to bradyonic universe transforms the tachyonic equations in bradyonic ones, being then able to describe elementary particles with arbitrary spin. The first order partial differential equation gives asymmetric quantum states, while the second order partial differential equation gives symmetric quantum states and so they describe different theories. In the course of this work, both these theories will be studied. Either way, only one of the two could be the right theory of the elementary particles. Since this theory follows on from the Big-Bang, from the resultant tachyonic universe and from Big-Break, it has been called α-Theory, i.e. the “beginning theory.” The α-Theory may theoretically predict the experimental properties of neutrinos and anti-neutrinos and allows, thanks to the appendix A, to generalize the concepts of the Dirac sea, Pauli exclusion principle and spin-statistics theorem, thus giving rise to “s-matter” and “multi-statistics,” which are able to take an interesting approach for the explanation of the Dark Matter. Furthermore, it expects on large-scale the “double inflation” mechanism, which, without the Dark Energy, could explain the acceleration of our universe (bradyonic universe). From the α-Theory, two string actions can be deduced too, by which new ideas can be developed. Practically, the α-Theory wants to be a GUT, able to describe the quantum particles and our universe in a simple and elegant way.
Category: High Energy Particle Physics

[510] viXra:1406.0087 [pdf] submitted on 2014-06-14 07:00:34

Excitation of Negative Mass

Authors: N. Murata, Yoja Panchan
Comments: 4 Pages.

In this paper, a circuit was conceptually designed which can excite either a positive or a negative mass, using the mass equation derived from the g_equation on the assumption of certain conditions. This study examined the construction of an element from positive mass in order to establish the above excitation, and how to apply the element.
Category: High Energy Particle Physics

[509] viXra:1406.0080 [pdf] submitted on 2014-06-13 21:45:42

18 Types of Quarks in Vedic Particle Physics

Authors: John Frederic Sweeney
Comments: 28 Pages.

Western nuclear physics contains six types of Quarks, while Vedic Nuclear Physics accounts for 18 types of Quarks and 18 types of anti – Quarks. The process of Quark formation is given here, as well as that of Gluons. Moreover, none of the 89 particles discovered by western physics, including the Higgs Boson, is a fundamental particle in the sense of the ten fundamental particles of Vedic Particle Physics. The so – called “God Particle” is a farce of western physics, since Vishnu resides in every particle. Every particle is a God Particle.
Category: High Energy Particle Physics

[508] viXra:1406.0077 [pdf] submitted on 2014-06-13 08:26:15

Neutron Star Safety Assurance Concerns to Particle Collider Operation of TeV-Scale P-P Collisions

Authors: Thomas B Kerwick
Comments: 11 Pages.

Astrophysical safety assurances in White Dwarf (WD) longevity and Neutron Star (NS) longevity were proposed in the 2008 safety report [1] commissioned at CERN regarding the existential risks to Earth from micro black holes (MBH) created in Proton-Proton (P-P) collisions at the Large Hadron Collider (LHC) in the event of hypothetical stable TeV-scale MBH. The WD safety assurance being stated as only applicable to MBH of dimensions D<=8 and at no greater than 14 TeV energy levels, the NS safety assurance was therefore provided as the solitary astrophysical safety assurance (other than Hawking Radiation theory) outside this remit. Amid suggestion in outsider-debate [2][3][4] that the process of Hawking Radiation (HR) theorised on such TeV-scale MBH may prove less effective in practice than in its mathematical model, a closer look at the NS assurance is reasoned herein. This short paper presents concerns regarding the NS safety assurance as a solitary safety assurance for MBH of greater dimensions, and/or for MBH created at greater energy levels (> 14 TeV) than those which a solid WD safety assurance [3] can provide.
Category: High Energy Particle Physics

[507] viXra:1406.0073 [pdf] submitted on 2014-06-13 02:26:56

The Mass Can’t Conservation in β+ Decay

Authors: Yibing Qiu
Comments: 1 Page.

Showing the mass can not conservation in the β+ decay of a proton
Category: High Energy Particle Physics

[506] viXra:1406.0047 [pdf] submitted on 2014-06-08 13:20:23

Can Gravitons be Effectively Massive Due to Their Zitterbewegung Motion?

Authors: E.Koorambas
Comments: 6 Pages.

Following up on an earlier, De Broglie-Bohm approach within the framework of quantum gauge theory of gravity, and based on the Schrödinger-Dirac equation for gravitons, we argue that gravitons are effectively massive due to their localized circulatory motion. This motion is analogous to the proposed zitterbewegung (ZB) motion of electrons.
Category: High Energy Particle Physics

[505] viXra:1406.0039 [pdf] submitted on 2014-06-07 09:39:52

The Evolution Process of Left Right Neutrinos’ Modeling Population

Authors: E.Koorambas
Comments: 3 Pages.

In this letter we investigate the Left-Right Symmetric Model, in the framework of evolution theory. We calculate the sufficient number of K-meson decays, where heavy Right hand Majorana neutrinos are suppressed. The evolution pattern of Left-Right neutrinos modeling population is also studied. The proposed evolution pattern yields to the possible heavy Right hand Majorana neutrinos observation in single isolated K-meson decay in energy scale of 14 TeV.
Category: High Energy Particle Physics

[504] viXra:1406.0033 [pdf] submitted on 2014-06-05 17:59:10

The Cubic Equation's Relation to the Fine Structure Constant, the Mixing Angles, and Weinberg Angle

Authors: J. S. Markovitch
Comments: 4 Pages.

A special case of the cubic equation is shown to possess three unusually economical solutions. A minimal case associated with these solutions is then shown to yield a congruous set of numbers that fit the fine structure constant, the sines squared of the quark and lepton mixing angles, as well as the Weinberg angle. Had Renaissance mathematicians probed the cubic equation's solutions more deeply these numbers might have formed a well-known part of algebra from the 16th century.
Category: High Energy Particle Physics

[503] viXra:1406.0011 [pdf] submitted on 2014-06-03 03:19:22

A Microscopic Approach to Quark and Lepton Masses and Mixings

Authors: Bodo Lampe
Comments: 37 Pages.

In recent papers a microscopic model for the SM Higgs mechanism has been proposed, and an idea how to determine the 24 quark and lepton masses of all 3 generations has emerged in that framework. This idea is worked out in detail here by accommodating the fermion masses and mixings to microscopic parameters. The top quark mass turns out to be $m_t\approx 170$GeV and can be given in terms of the weak boson masses and of certain exchange couplings of isospin vectors obeying a tetrahedral symmetry. The observed hierarchy in the family spectrum is attributed to a natural hierarchy in the microscopic couplings. The neutrinos will be shown to vibrate within the potential valleys of the system, thus retaining very tiny masses. This is related to a Goldstone effect inside the internal dynamics. A discussion of the quark and lepton mixing matrices is also included. The mixing angles of the PMNS matrix are calculated for an example set of parameters, and a value for the CP violating phase is given.
Category: High Energy Particle Physics

[502] viXra:1406.0003 [pdf] submitted on 2014-06-01 10:20:35

Greenberg Parafermions and a Microscopic Model of the Fractional Quantum Hall Effect

Authors: Syed Afsar Abbas
Comments: 11 Pages.

So far all theoretical models claiming to explain the Fractional Quantum Hall Effect are macroscopic in nature. In this paper we suggest a truly microscopic structure of this phenomenon. At the base is how electron charge is defined in the group SU(N) for arbitrary values of integer N. It is shown how all discovered charges in the Fractional Quantum Hall Effect are accounted for in this model. We show how Greenberg Parafermions, obeying parastatistics, are fundamentally required within this picture to explain the Fractional Quantum Hall Effect. We also show how both the Fractional Quantum Hall Effect and the Integral Quantum Hall Effect are explained in a common unified description in this microscopic model.
Category: High Energy Particle Physics

[501] viXra:1405.0362 [pdf] submitted on 2014-05-31 09:01:32

Neutrinos and Gamma rays

Authors: Yibing Qiu
Comments: 1 Page.

Showing the relationship between Neutrinos and Gamma rays
Category: High Energy Particle Physics

[500] viXra:1405.0358 [pdf] submitted on 2014-05-30 11:36:00

Hopf Fibration and E8 in Vedic Physics

Authors: John Frederick Sweeney
Comments: 34 Pages.

A parallel construction exists in Vedic Nuclear Physics which appears to be the Exceptional Lie Algebra E8 and the Hopf Fibration. This paper describes the key sphere H7 in Vedic Physics and then attempts to draw isomorphic relationships between the structures. In this way, this paper attempts to explain the relationship between E8 and the Hopf Fibration, which is not well understood generally, in the hope that Vedic Nuclear Physics may provide a heuristic model. Hypothesis about Exceptional Lie Algebras and related Hopf Fibrations, gives numerical values for Exceptional Lie Algebras and spheres.
Category: High Energy Particle Physics

[499] viXra:1405.0334 [pdf] submitted on 2014-05-27 16:07:44

Kinetic Energy

Authors: Lubomir Vlcek
Comments: 6 Pages. Status: With editors in Physical Review Letters

Relationship Lorentz derived from the asymmetrical form of the intensity of the moving charge. To derive it we do not need Lorentz's transformations equations, that is we do not need SPACE-TIME. We do not need local time, or covariant equations or physical simultaneity definition or invariant interval. In other words, in physics we do not need Einstein's theory of relativity. From the asymmetrical form of the intensity of the moving charge we can derive Gauss law, Faraday's law and derive the 4th Maxwell's equation, fictional by Maxwell and not to be derived.Kinetic energy of a charge moving at the velocity of v has two different values: in direction of motion as own kinetic energy of charge and against direction of motion of charge represents the wave energy, which creates charge in transmision medium.
Category: High Energy Particle Physics

[498] viXra:1405.0319 [pdf] submitted on 2014-05-26 07:12:53

Determining the Mass of a π-Meson and a Neutrino

Authors: Yibing Qiu
Comments: 1 Page.

Determine the mass of a π-meson and a neutrino
Category: High Energy Particle Physics

[497] viXra:1405.0307 [pdf] submitted on 2014-05-25 01:57:30

What is Quark?

Authors: Lubomir Vlcek
Comments: 4 Pages. Status: With editors in Physical Review Letters

Two energies, which are measured in opposite directions, and we consider them as quarks are actually two different kinetic energy of a single proton, the first in the direction of its movement, and the second in the opposite direction. Quarks are actually locked (confinement) in proton, as is clear from the individual tables.
Category: High Energy Particle Physics

[496] viXra:1405.0274 [pdf] submitted on 2014-05-20 13:30:52

QFT’S Non-Speculative, Automatic Predictions of Particle Masses

Authors: Nigel B. Cook
Comments: 10 Pages.

Please see paper for detailed abstract. In brief, this paper uses existing non-speculative QFT to provide a model for predicting particle masses. This paper develops further the arguments and justifies the extensive results given in our 30 November 2011 vixra paper, http://vixra.org/abs/1111.0111
Category: High Energy Particle Physics

[495] viXra:1405.0255 [pdf] submitted on 2014-05-17 09:01:29

E8 + E8 Heterotic String Theory

Authors: John Frederick Sweeney
Comments: 23 Pages.

S.M. Phillips has articulated a fairly good model of the E8×E8 heterotic superstring, yet nevertheless has missed a few key aspects. This paper informs his model from the perspective of Vedic Nuclear Physics, as derived from the Rig Veda and two of the Upanishads. In addition, the author hypothesizes an extension of the Exceptional Lie Algebra Series beyond E8 to another 12 places or more, which correspond with a series of 20 Hyper - Circles in Vedic Nuclear Physics, the values for which are given here.
Category: High Energy Particle Physics

[494] viXra:1405.0253 [pdf] submitted on 2014-05-16 08:53:48

Supersymmetric Light and Dark Matter

Authors: Bernard Riley
Comments: 14 Pages.

Particles occupy mass levels within three geometric sequences that descend from the Planck Mass. Every third level in each sequence is a superlevel of type 1. Every fifth level in each sequence is a superlevel of type 2. The charged leptons in partnership with pseudoscalar mesons are arranged symmetrically about closely coincident superlevels of type 1. The quarks, in weak isospin doublets, are arranged symmetrically about closely coincident superlevels of type 2. A symmetrical pattern of three-sequence coincident superlevels of type 1 extends over many orders of magnitude. The electron and the up quark both participate in partnerships with pseudoscalar mesons that are arranged symmetrically about the centre of the pattern. The model admits of the partnership of an electron neutrino of mass of 10.9 meV with a scalar of mass ~2x10^7 GeV, and of the partnership of a 15.9 keV fermion, conjectured to be the sterile right-handed electron neutrino, with a scalar of mass ~16 GeV.
Category: High Energy Particle Physics

[493] viXra:1405.0249 [pdf] submitted on 2014-05-16 02:43:57

The Results of Recent Neutrino Velocity Experiments Disprove Special Relativity Theory

Authors: Ramzi Suleiman
Comments: 15 Pages.

The time dilation predicted by Special Relativity Theory is completely determined by the Lorentz Factor. The Invariance Principle, expressed in γ, puts two categorical constraints on the velocity β: 1. β< 1, and 2. γ(β) = γ(-β). The findings of recent neutrino velocity experiments, which tested the first constraint, reveal that the velocity of neutrinos is not statistically different from the velocity of light. Surprisingly, in all these experiments, the second constraint, γ(β) = γ(-β), which constitutes the essence of the Lorentz Invariance, was not tested. Here I explain why the design of the neutrino velocity experiments qualifies them as "severe" tests of the Lorentz invariance. I further show that Special Relativity fails colossally in predicting all the reported (v-c)/c values. I also show that for all the discussed experiments, abandoning the Lorentz Invariance yields accurate predictions.
Category: High Energy Particle Physics

[492] viXra:1405.0237 [pdf] submitted on 2014-05-14 05:14:55

L.vlcek Vixra, Getcited, Book, CD, Conferences 14.5.2014

Authors: Lubomir Vlcek
Comments: 1 Page. overview of works

L.Vlcek vixra, getcited, book, CD, Conferences 14.5.2014
Category: High Energy Particle Physics

[491] viXra:1405.0236 [pdf] submitted on 2014-05-14 05:56:52

Weakly Interacting Particles as Different States of a Structural Mass Unit

Authors: Eduard N. Klenov
Comments: 10 Pages.

We have delivered the concept of a structural mass unit as a carrier of a special basic structure, different states of which can be compared (juxtaposed) to weakly interacting particles and antiparticles. This structure radically differs from the compound structure of atoms and nuclei as it doesn’t contain the elements its mass is formed of, and its components cannot be interpreted in the concept of “particles” and removed from it. Mutual transformation of weakly interacting point particles is the result of basic structure and it is possible if every particle has an antiparticle. Mass (energy) of states of the basic structure carrier depends on the orientation of the components of this structure. Neutrino and antineutrino appear to be the states of the structural mass unit and therefore they possess mass. Antiparticles and particles are different states of the basic structure carrier, the structure components of which have opposite signs.
Category: High Energy Particle Physics

[490] viXra:1405.0228 [pdf] submitted on 2014-05-14 03:50:55

π-Meson and the Structure of a Nucleus

Authors: Yibing Qiu
Comments: 1 Page.

put forward a new combination mechanism of nuclear (hadrons)
Category: High Energy Particle Physics

[489] viXra:1405.0206 [pdf] submitted on 2014-05-10 11:45:29

A New Model of Structure for a Neutron and a μ-Meson

Authors: Yibing Qiu
Comments: 1 Page.

put forward a new model of a neutron and a μ-meson
Category: High Energy Particle Physics

Replacements of recent Submissions

[436] viXra:1409.0063 [pdf] replaced on 2014-09-11 22:57:49

Fractal Spacetime and the Dynamic Generation of Mass Scales in Field Theory

Authors: Ervin Goldfain
Comments: 14 Pages. Work in progress.

As of today, the mechanism underlying the generation of mass scales in field theory remains elusive. Here we show how the concept of fractal spacetime having minimal deviations from four-dimensionality (the so-called minimal fractal manifold) can naturally account for the onset of these scales. A counter-intuitive outcome of this analysis is the deep link between the minimal fractal manifold and the holographic principle.
Category: High Energy Particle Physics

[435] viXra:1409.0063 [pdf] replaced on 2014-09-10 15:40:24

Fractal Spacetime and the Dynamic Generation of Mass Scales in Field Theory

Authors: Ervin Goldfain
Comments: 14 Pages. Work in progress.

As of today, the mechanism underlying the generation of mass scales in field theory remains elusive. Here we show how the concept of fractal spacetime having minimal deviations from four-dimensionality (the so-called minimal fractal manifold) can naturally account for the onset of these scales. A counter-intuitive outcome of this analysis is the deep link between the minimal fractal manifold and the holographic principle.
Category: High Energy Particle Physics

[434] viXra:1409.0061 [pdf] replaced on 2014-09-12 15:41:06

New Wave Equation for Ultrarelativistic Particles

Authors: Ginés R. Pérez Teruel
Comments: 15 Pages.

Starting from first principles and general assumptions based on the energy-momentum relation of the Special Theory of Relativity we present a novel wave equation for ultrarelativistic matter. This wave equation arises when particles satisfy the condition, $p>>m$, i.e, when the energy-momentum relation can be approximated by, $E\simeq p+\frac{m^{2}}{2p}$. Interestingly enough, such as the Dirac equation, it is found that this wave equation includes spin in a natural way. Furthermore, the free solutions of this wave equation contain plane waves that are completely equivalent to those of the theory of neutrino oscillations. Therefore, the theory reproduces some standard results of the Dirac theory in the limit $p>>m$, but offers the possibility of an explicit Lorentz Invariance Violation of order, $\mathcal{O}((mc)^{4}/p^{2})$. As a result, the theory could be useful to test small departures from Dirac equation and Lorentz Invariance at very high energies. On the other hand, the wave equation can also describe particles of spin 1 by a simple substitution of the spin operators, $\boldsymbol{\sigma}\rightarrow\boldsymbol{\alpha}$. In addition, it naturally admits a Lagrangian formulation and a Hamiltonian formalism. We also discuss the associated conservation laws that arise through the symmetry transformations of the Lagrangian.
Category: High Energy Particle Physics

[433] viXra:1408.0196 [pdf] replaced on 2014-08-29 22:20:17

Bootstrapping Generations

Authors: A. Rivero
Comments: 4 Pages.

A supersymmetric version of Chew's "democratic bootstrap" argument predicts the existence of three generations of particles, with a quark, of type "up", more massive that the other five.
Category: High Energy Particle Physics

[432] viXra:1408.0162 [pdf] replaced on 2014-08-26 02:09:30

The Higgs Vacuum.The Particles Of The Standard Model And The Compliance With the Energy-Momentum Equation. The Necessary Existence Of the Axion. Stop Quark Mass

Authors: A.Garcés Doz
Comments: 11 Pages.

In this paper it is demonstrated that all the masses of the standard model particles; including the Higgs boson h; with nonzero rest mass, comply with the equation of energy-momentum. The model Higgs vacuum corresponds to a virtual vacuum, for which the contribution of particles with zero rest mass is null (photon, gluon, graviton) .With the best values ​​of the masses of the particles (Particle Data Group), it is found that axion mass has to be extremely small. Also the theoretical model Higgs vacuum, a completely new model based on the lattice R8 and sixteen matrix elements of energy; corresponding to the four solutions of the equation of energy-momentum (isomorphism with the four components of the scalar field. One complex doublet ); to be factored into two factors with real and imaginary components of energy. Of this new model Higgs vacuum; naturally get the beta angle. Stop quark mass is obtained by solving the equation of radiative mass correction Higss boson, h, to one loop. The exact determination of the beta angle, allows calculating the mass of the stop of about 1916 GeV. Similarly, a mass for axion is proposed of around 110 micro eV
Category: High Energy Particle Physics

[431] viXra:1408.0109 [pdf] replaced on 2014-08-22 11:39:11

Historical Perspective on the Impedance Approach to Quantum Field Theory

Authors: Peter Cameron
Comments: 9 Pages. clarified the roles of Hamiltonian and Lagrangian in the conservation and flow of energy.

The absence of impedances from the Standard Model is most remarkable. Impedance is a fundamental concept, of universal validity. Impedances govern the flow of energy. In particular, the coupling of the photon to matter happens in the near field. The absence of the photon near-field impedance in photon-electron interactions is the most basic and profound example of this remarkable circumstance, sitting unnoticed in the foundation of quantum electrodynamics. One cannot obtain a complete understanding of such interactions without examining the role of impedances. How this essential principle escaped notice in the development of quantum field theory is outlined, and consequences of its inclusion in our present understanding are explored.
Category: High Energy Particle Physics

[430] viXra:1408.0109 [pdf] replaced on 2014-08-19 22:28:47

Historical Perspective on the Impedance Approach to Quantum Field Theory

Authors: Peter Cameron
Comments: 9 Pages. fixed more broken links in the references

The absence of impedances from the Standard Model is most remarkable. Impedance is a fundamental concept, of universal validity. Impedances govern the flow of energy. In particular, the coupling of the photon to matter happens in the near field. The absence of the photon near-field impedance in photon-electron interactions is the most basic and profound example of this remarkable circumstance, sitting unnoticed in the foundation of quantum electrodynamics. One cannot obtain a complete understanding of such interactions without examining the role of impedances. How this essential principle escaped notice in the development of quantum field theory is outlined, and consequences of its inclusion in our present understanding are explored.
Category: High Energy Particle Physics

[429] viXra:1408.0109 [pdf] replaced on 2014-08-19 15:41:34

Historical Perspective on the Impedance Approach to Quantum Field Theory

Authors: Peter Cameron
Comments: 9 Pages. fixed broken references (thanks Ralph), other minor changes

The absence of impedances from the Standard Model is most remarkable. Impedance is a fundamental concept, of universal validity. Impedances govern the flow of energy. In particular, the coupling of the photon to matter happens in the near field. The absence of the photon near-field impedance in photon-electron interactions is the most basic and profound example of this remarkable circumstance, sitting unnoticed in the foundation of quantum electrodynamics. One cannot obtain a complete understanding of such interactions without examining the role of impedances. How this essential principle escaped notice in the development of quantum field theory is outlined, and consequences of its inclusion in our present understanding are explored.
Category: High Energy Particle Physics

[428] viXra:1408.0094 [pdf] replaced on 2014-08-19 09:50:07

Fractal Propagators and the Asymptotic Sectors of Quantum Field Theory

Authors: Ervin Goldfain
Comments: 11 Pages. Work in progress.

Propagators for charged fermions do not follow the prescription of perturbative quantum field theory (QFT) in the far infrared (IR) and ultraviolet (UV) sectors of particle physics. They acquire a fractal structure from radiative corrections contributed by gauge bosons. Here we show how fractal propagators in QFT may be analyzed using fractional field theory on space-times having minimal deviations from four-dimensionality. An intriguing consequence of this approach is the emergence of classical gravity as long-range and ultra-weak excitation of the Higgs condensate.
Category: High Energy Particle Physics

[427] viXra:1408.0094 [pdf] replaced on 2014-08-16 20:04:12

Fractal Propagators and the Asymptotic Sectors of Quantum Field Theory

Authors: Ervin Goldfain
Comments: 11 Pages. Work in progress.

In the deep infrared (IR) and ultraviolet (UV) sectors of particle physics, propagators for charged fermions no longer follow the prescription of perturbative quantum field theory (QFT). They acquire a fractal structure from radiative corrections contributed by gauge bosons. Here we show how fractal propagators in QFT may be analyzed using fractional field theory on space-times having minimal deviations from four-dimensionality. An intriguing consequence of this approach is the emergence of classical gravity as long-range and ultra-weak excitation of the Higgs condensate.
Category: High Energy Particle Physics

[426] viXra:1406.0168 [pdf] replaced on 2014-07-18 07:34:15

Multifractal Sets and the Dynamic Structure of the Standard Model

Authors: Ervin Goldfain
Comments: 17 Pages.

We show that the Standard Model (SM) represents a self-contained multifractal set on spacetime having arbitrarily small deviations from four-dimensionality ( ). All coupling charges residing on this background (gauge, Higgs and Yukawa) satisfy a closure relationship that a) tightly constrains the flavor and mass content of the SM and b) naturally solves the “hierarchy problem”, without resorting to new concepts reaching beyond the physics of the SM.
Category: High Energy Particle Physics

[425] viXra:1406.0077 [pdf] replaced on 2014-07-07 20:05:13

Neutron Star Safety Assurance Concerns to Particle Collider Operation of TeV-Scale P-P Collisions

Authors: Thomas B Kerwick
Comments: 11 Pages.

Astrophysical safety assurances in White Dwarf (WD) longevity and Neutron Star (NS) longevity were proposed in the 2008 safety report [1] commissioned at CERN regarding the existential risks to Earth from micro black holes (MBH) created in Proton-Proton (P-P) collisions at the Large Hadron Collider (LHC) in the event of hypothetical stable TeV-scale MBH. The WD safety assurance being stated as only applicable to MBH of dimensions D<=8 and at no greater than 14 TeV energy levels, the NS safety assurance was therefore provided as the solitary astrophysical safety assurance (other than Hawking Radiation theory) outside this remit. Amid suggestion in outsider-debate [2][3][4] that the process of Hawking Radiation (HR) theorised on such TeV-scale MBH may prove less effective in practice than in its mathematical model, a closer look at the NS assurance is reasoned herein. This short paper presents concerns regarding the NS safety assurance as a solitary safety assurance for MBH of greater dimensions, and/or for MBH created at greater energy levels (> 14 TeV) than those which a solid WD safety assurance [3] can provide.
Category: High Energy Particle Physics

[424] viXra:1406.0077 [pdf] replaced on 2014-06-25 18:49:55

Neutron Star Safety Assurance Concerns to Particle Collider Operation of TeV-Scale P-P Collisions

Authors: Thomas B Kerwick
Comments: 11 Pages.

Astrophysical safety assurances in White Dwarf (WD) longevity and Neutron Star (NS) longevity were proposed in the 2008 safety report [1] commissioned at CERN regarding the existential risks to Earth from micro black holes (MBH) created in Proton-Proton (P-P) collisions at the Large Hadron Collider (LHC) in the event of hypothetical stable TeV-scale MBH. The WD safety assurance being stated as only applicable to MBH of dimensions D<=8 and at no greater than 14 TeV energy levels, the NS safety assurance was therefore provided as the solitary astrophysical safety assurance (other than Hawking Radiation theory) outside this remit. Amid suggestion in outsider-debate [2][3][4] that the process of Hawking Radiation (HR) theorised on such TeV-scale MBH may prove less effective in practice than in its mathematical model, a closer look at the NS assurance is reasoned herein. This short paper presents concerns regarding the NS safety assurance as a solitary safety assurance for MBH of greater dimensions, and/or for MBH created at greater energy levels (> 14 TeV) than those which a solid WD safety assurance [3] can provide.
Category: High Energy Particle Physics

[423] viXra:1406.0073 [pdf] replaced on 2014-06-18 08:43:50

The Mass Can’t Conservation in β+ Decay

Authors: Yibing Qiu
Comments: 1 Page.

Showing the mass can not conservation in the β+ decay of a proton
Category: High Energy Particle Physics

[422] viXra:1406.0033 [pdf] replaced on 2014-07-25 18:03:32

The Cubic Equation's Relation to the Fine Structure Constant, the Mixing Angles, and Weinberg Angle

Authors: J. S. Markovitch
Comments: 4 Pages.

A special case of the cubic equation is shown to possess three unusually economical solutions. A minimal case associated with these solutions is then shown to yield a congruous set of numbers that fit the fine structure constant, the sines squared of the quark and lepton mixing angles, as well as the Weinberg angle. Had Renaissance mathematicians probed the cubic equation's solutions more deeply these numbers might have formed a well-known part of algebra from the 16th century.
Category: High Energy Particle Physics

[421] viXra:1405.0362 [pdf] replaced on 2014-06-27 08:43:41

Neutrinos and Gamma-ray

Authors: Yibing Qiu
Comments: 1 Page.

showing the relationship between Neutrinos and Gamma-ray
Category: High Energy Particle Physics

[420] viXra:1405.0362 [pdf] replaced on 2014-06-01 01:27:28

Neutrinos and Gamma rays

Authors: Yibing Qiu
Comments: 1 Page.

Showing the relationship between Neutrinos and Gamma rays
Category: High Energy Particle Physics

[419] viXra:1405.0319 [pdf] replaced on 2014-05-26 09:23:03

Determining the Mass of a π-Meson and a Neutrino

Authors: Yibing Qiu
Comments: 1 Page.

Determine the mass of a π-meson and a neutrino
Category: High Energy Particle Physics

[418] viXra:1405.0274 [pdf] replaced on 2014-07-24 07:11:02

Self Consistent Automatic QFT Predictions of Particle Masses

Authors: Nigel B. Cook
Comments: 16 Pages.

Please see paper (contains technical formulae). This is a revised version which includes a revised, much improved abstract. (The revisions are aimed at increasing clarity and fashionability of the theory towards the point where an edited version would pander sufficiently to popular dogmas and prejudices to be considered publishable.)
Category: High Energy Particle Physics

[417] viXra:1405.0274 [pdf] replaced on 2014-06-04 09:16:42

Self Consistent QFT Predictions of Particle Masses

Authors: Nigel B. Cook
Comments: 15 Pages.

1. Virtual fermions are radially polarized (driven further apart) by the electric field in which they formed. 2. This polarization supplies the virtual fermions energy, at the expense of electric field, which is thus partly “screened.” 3. The energy supplied to virtual fermions by their radial polarization extends their lifetime beyond Heisenberg’s h/E. 4. This supply of extra energy moves “virtual” fermions towards the real mass shell, so they briefly obey Pauli’s principle. 5. As a result of this, the “virtual” fermions become structured like electron orbits, thereby contributing quantized mass. Different isomers are possible which allow various weak decay routes, thereby predicting the CKM matrix mechanism. 6. Because neutrinos only have weak charges (not electromagnetic charge or color charge), they have weak fields, producing on average little mass due to very occasional pair production, so they weakly interact with gravity (gravity’s charge is mass). Neutrino mass data suggest flavor oscillations are geometric differences in the vacuum structuring of their masses. Whereas string theory envisages different quantized masses to arise by analogy to electron energy levels (line spectra), this model uses a quantum gravity calculation to quantize mass. Lattice QCD has to use some particle masses as input, to calculate other masses as output. We instead use the mass mechanism of neutral Z currents, where offshell fermion pair production field quanta around the core of a fundamental particle absorb some of the electric field energy and move apart, attenuating the electric field in the process (hence causing the running of the electromagnetic coupling with distance and energy), and thus take longer to annihilate than given for purely offshell field quanta. The absorbed extra energy increases the virtual fermion pair survival time towards that of onshell particles, so the Pauli exclusion principle begins to apply to those virtual fermions, structuring the vacuum virtual fermions into electronic “shells,” giving a simple pattern of discrete masses. This model justifies the vacuum shell structure model since rematively stable long-lived particle masses (life >10^-23 second) correspond to parameters equivalent to stable (filled) shells. A table of theory-to-experiment comparisons is provided, with literature references for the development of the theory, which began in 1952 with the paper by Yoichiro Nambu, the proposer of QCD color charge, "An Empirical Mass Spectrum of Elementary Particles" (Progress in Theoretical Physics, v7, 1952, pp. 595-6), arguing: "“It seems to be a general conviction of current physicists that the theory of elementary particles in its ultimate form could or should give the mass spectrum of these particles just in the same way as quantum mechanics has succeeded in accounting for the regularity of atomic spectra. ... it may perhaps be too ambitious and rather unsound to look for an empirical ‘Balmer’s law’. Nevertheless we should like here to present one such attempt because it happens to be extremely simple ..." Of course, simple mechanical explanations of Nambu's sort are now laughable to status quo, which is so obsessed with some kind of extravagant explanation for mass that it overlooks - indeed now censors out - common sense.
Category: High Energy Particle Physics

[416] viXra:1405.0274 [pdf] replaced on 2014-05-23 03:51:04

QFT’S Non-Speculative, Automatic Predictions of Particle Masses

Authors: Nigel B. Cook
Comments: 14 Pages.

Please see paper. This is an expanded version of the paper uploaded on 20 May 2014. The detailed calculations and comparisons to measured particle masses are contained in previous papers; this paper doesn't repeat that stuff over again but concisely explains the underlying physics (behind the equations previously published) in a more understandable way. However, there are still serious presentation problems if the majority of potential readers are extremely bigoted in the Distler fashion against "unorthodox" approaches which are based on facts and produce confirmed predictions honestly. If equations are presented they're ignored, if explanations in words are published, they're ignored. Peer review is simply a censorship to maintain orthodox unless maybe the author is already famous for something else.
Category: High Energy Particle Physics

[415] viXra:1405.0270 [pdf] replaced on 2014-08-06 13:32:08

Scale Factors and the Scale Principle (Scale Law)

Authors: Rodolfo A. Frino
Comments: 18 Pages.

This article introduces a new physical law that I shall call the Scale Principle or Scale Law. This Law, which is a Model Meta-law, is a model all the laws of physics must obey. When there is no enough information about the phenomenon we try to describe mathematically, the Scale Law can also be used as a numerical method. On the other hand when all the necessary information is available this formulation can help us to discover new natural laws (This method can be illustrated, for example, through the derivation of the Lorentz transformations [18]). This paper introduces two numeric formulas for the proton radius. The reason the formulas are numerical and not exact (non-numerical) is because we do not have all the necessary information about the proton. The first formula for the proton radius suggests that generation 1, which makes up all the normal matter in the universe, exists because of the existence of the other two generations and the structure of the universe at the Planck scale. The second formula matches the proton radius obtained by measuring the Lamb shift in muonic hydrogen. There is a feeling that one of these formulas could be the exact descriptions of Nature. However we shall consider them as numerical relationships until proven correct. Two additional examples illustrate the fact that this Law can produce true descriptions of Nature: The Heisenberg uncertainty principle and the black hole entropy. More importantly, further research carried out by the author showed that all normal laws of physics are special cases of this formulation. Finally, based on a table of scale factors, the formulation predicts a small range of possible values for the size of the electron. This result is backed up by a separate and independent research carried out by the author assuming an electron model with an infinite potential well. Thus, the Scale Law opens a new window into the understanding of all levels of Nature.
Category: High Energy Particle Physics

[414] viXra:1405.0228 [pdf] replaced on 2014-05-14 08:10:46

π-Meson and the Structure of a Nucleus

Authors: Yibing Qiu
Comments: 1 Page.

put forward a new combination mechanism of nuclear (hadrons)
Category: High Energy Particle Physics

[413] viXra:1405.0206 [pdf] replaced on 2014-05-11 01:42:52

A New Model of a Neutron Based on π-Meson

Authors: Yibing Qiu
Comments: 1 Page.

put forward a new model of a neutron based on π-Meson
Category: High Energy Particle Physics