High Energy Particle Physics

2411 Submissions

[4] viXra:2411.0163 [pdf] submitted on 2024-11-26 19:03:50

Quantum Correction to the Synchrotron Photon Spectrum

Authors: Miroslav Pardy
Comments: 14 Pages. Original article

We calculate the quantum corrections to synchrotron photon spectrum by methoddeveloped by Schwinger and Tsai. The traditional calculation method working withthe particle wave functions is here replaced by the mass operator approach avoidingthe particle final states and the integration over photon angular distribution. Thealgorithm of the calculation of the quantum corrections to the synchrotron radiationconsists in the evaluation of the forward Compton scattering process in the externalmagnetic field and then in application of the optical theorem to obtain the angularand frequency distribution.
Category: High Energy Particle Physics

[3] viXra:2411.0140 [pdf] replaced on 2025-01-25 03:34:32

An Unifying Equation for Almost All Constituent Quarks Masses, of Cold and Hot Genesis

Authors: Arghirescu Marius
Comments: 12 Pages.

Based on a Cold Genesis pre-quantum theory of particles and fields, (C.G.T.), which explains the constituent quarks and the resulted elementary particles as clusters of negatron-positron pairs ((e-e+)) forming basic z0 -preons of 34 me which generate preonic bosons z2(4z0) and zp(7z0) and constituent quarks in a preonic model, from two equations, one for the preonic quarks (u, d, s) and another for the heavy quarks (c-charm and b-bottom), a single unitary equation is obtained for the both mass variants: CGT/Souza and Standard Model, by using four parameters representing integer numbers from 0 to 3: (k1 ; k2) (for the number of z2- and z- preonic bosons); f = (1;2)- flavor number; n = (1-4) —compositeness number, and a multiplication factor: [2n-1-2(n-1)] depending on n, the value n=4 giving a predicted quark, of mass approx.15 GeV/c2.
Category: High Energy Particle Physics

[2] viXra:2411.0139 [pdf] submitted on 2024-11-21 22:21:32

The Final Theory

Authors: Dimosthenis Michopoulos
Comments: 13 Pages. (Converted to pdf by viXra admin - Please submit article in pdf format only and author name should be in English and listed in the article)

This paper presents the theory of Material Pulses, a radical approach aimed at the completeunification of physical interactions, from classical physics to quantum mechanics. Thematerial pulse is introduced as the fundamental entity, describing the structure of matter andenergy through distributions of charge and energy. The theory aims to explain phenomenathat are traditionally interpreted through abstract concepts, such as spin, which is redefinedas a consequence of the internal dynamics of pulses rather than an independent property.Using minimal coupling, the theory describes the interactions of material pulses with externalfields, leading to a natural emergence of both electromagnetic and gravitational phenomena.Experimental proposals are presented that could validate this theoretical approach, such asmodified Stern-Gerlach experiments and pulse scattering experiments.The theory of Material Pulses offers a unified perspective for understanding physical laws,proposing a simplified and coherent interpretation that can unify classical and quantumphysics, ultimately leading to a Final Theory of physical interactions. (PDF) The Final Theory. Available from: https://www.researchgate.net/publication/385965279_The_Final_Theory [accessed Nov 21 2024].
Category: High Energy Particle Physics

[1] viXra:2411.0043 [pdf] submitted on 2024-11-06 21:46:05

Mass and Spacetime Quantization of the Generalized Dirac Equation based on Octonion-Sedenion Algebra: Towards Derivation of the Fine Structure Constant Beyond the 12th Decimal-Digit Precision

Authors: Jau Tang, Brian Tang, Qiang Tang
Comments: 12 Pages.

We present an approach to solving the mystery of the fine structure constant (α) usinghyper-complex algebra. Extending Einstein’s continuous 4D Minkowski space and the Dirac equation, we address internal 4D or 12D spacetime in particles for the octonion and sedenion models. We propose that particle mass originates from internal dynamics, not the Higgs mechanism in Yang-Mills theory. By quantizing mass and internal spacetime, we derive a geometric constant of 137 for the octonion model, and 137.03599920605017 for the sedenion model, precisely matching the experimental value of 1/α = 137.035999206 (11) to within ~10-12. Our theory also suggests a fundamental mass energy of 0.05 eV, likely related to neutrinos. This work reveals that α is not merely a physical parameter but a dimensionless geometric constant, akin to π or Euler’s constant. We found simple empirical mass-ratio formulas linking α to the masses of the electron, Higgs boson, quarks, and Planck mass, elucidating the role of this constant in fundamental forces. This theory revolutionizes the understanding of mass and spacetime quantization, going beyond the Standard Model and opening new paths toward quantum gravity and grand unification.
Category: High Energy Particle Physics