| viXra.org > High Energy Particle Physics > 2305 |
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| viXra.org > High Energy Particle Physics > 2305 |
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[8] viXra:2305.0168 [pdf] submitted on 2023-05-29 01:37:22
Authors: Peter Cameron
Comments: Pages.
Physics topics to be covered in the upcoming Fermilab ACE Science Workshop include neutrino science, dark matter experiments, muons and the muon collider, and new physics ideas [1]. Quantum Impedance Networks (QINs) sit in the latter, in new physics ideas. They encompass the neutrino, dark matter, muon, and muon collider programs. This note outlines how the new physics synthesis of Geometric Algebra (Clifford algebra in the geometric representation) and quantum impedance networks of wavefunction interactions is potentially helpful to those programs. https://indico.fnal.gov/event/59663/
Category: High Energy Particle Physics
[7] viXra:2305.0092 [pdf] submitted on 2023-05-11 10:03:53
Authors: Miroslav Pardy
Comments: 9 Pages. original
The power spectral formula of the Cherenkov radiation of dipole is derived in the framework of the source theory. The distance between chargesof dipole is relativity contracted which manifests in the spectral formula. Theknowledge of the spectral formula then can be used to verification of the Lorentz contractionof the relativistic length of dipole. A feasible experiment for the verication of the dipolecontraction is suggested.
Category: High Energy Particle Physics
[6] viXra:2305.0090 [pdf] replaced on 2023-05-20 15:37:49
Authors: Ervin Goldfain
Comments: 14 Pages.
Relativistic Quantum Field Theory (QFT) develops divergences caused by perturbative corrections to Feynman diagrams. Dimensional Regularization (DR) is a technique that isolates divergences using analytic continuation to non-integer dimensions. In this introductory tutorial we argue that DR provides an alternative mechanism for mass generation in particle physics. This mechanism reconciles the Higgs model of electroweak symmetry breaking with the minimal fractal topology of spacetime above the Fermi scale. Mass predictions agree reasonably well with experimental data.
Category: High Energy Particle Physics
[5] viXra:2305.0070 [pdf] submitted on 2023-05-08 23:10:30
Authors: Stergios Pellis
Comments: 19 Pages.
In this paper it will be presented the theoretical value of the Gravitational constant. From the dimensionless unification of the fundamental interactions we will find the formulas for the Gravitational constant. From these equations it will be calculated the theoretical value of the Gravitational constant. This value is very close to the CODATA recommended value of gravitational constant and two experimental measurements from a research group announced new measurements based on torsion balances.
Category: High Energy Particle Physics
[4] viXra:2305.0054 [pdf] replaced on 2023-05-27 01:09:42
Authors: Deokjin Kim
Comments: 4 Pages.
The properties of quantum space are similar to thermodynamics. That is, the property of quantum mass m is the same as pressure P. Therefore, the combination of 1 eV and 9 eV in quantum space is not addition 1 + 9 = 10 eV or middle 10/2 eV, but multiplication 1 x 9 = 9 eV or square root √9 eV. The core of Koide formula is to figure out what the root mass means. The key points are as follows. (1) Origin particles are 3 neutrinos and 3 gravitons (graviton, photon, gluon). (2) The 6 origin particles exist all in electron, muon, and tau. (3) The compressed quantum space is reversible and optimized. As the result, the √m is established. (4) The 9 combination mass regions are composed of 3 mass regions of electron, muon, tau and 6 empty regions. (5) Electron, muon, and tau fight each other to occupy the six empty regions. The fighting process is 1/3 < Koide value K < 1. (6) The fairest and most stable result of the fighting is 2/3. From this, it can be understood that quantum space was reversible and optimized before Big Bang. The K is calculated as 0.666 661(7). The anomalous magnetic moments at the g-2 factors of electron, muon, and tau affect Koide formula very finely. Considering this, the value is calculated as 0.6666665. The K is judged to be 2/3 correct, and the mass of tau is predicted to be 1776.8885 MeV.
Category: High Energy Particle Physics
[3] viXra:2305.0043 [pdf] submitted on 2023-05-05 23:38:28
Authors: D.G. Grossman
Comments: 15 Pages.
Here’s more evidence showing subatomic particles may be made of higher dimensional matter. The mass of the first charmed lambda baryon factors as a multiple of an 8-sphere surface volume that is the sum of three large powers of two: 16384, 8192, and 4096. Just a coincidence? Maybe, but the seventh charmed lambda baryon also factors similarly, as a multiple of an 8-sphere surface volume that is the sum of two large powers of two: 32768, and 4096. The multiplier found in the first factoring can be expressed as 32768-4096 and the second multiplier can be expressed as 32768+4096, which is quite a symmetrical relationship, and quite hard to explain if the factorings are each just random coincidences. Included with the factorings of the seven charmed lambda baryons are an explanation of how to do n-sphere factoring, and a tentative description of the higher dimensional structure of hadrons.
Category: High Energy Particle Physics
[2] viXra:2305.0042 [pdf] submitted on 2023-05-05 23:45:12
Authors: A. I. Andreus
Comments: 7 Pages, in Russian, Ukrainian.
Interaction of an electron and a positron before the appearance of photons. The interaction of an electron and a positron before the result of the appearance of photons occupies a special place in excursions into the history of physics from the moment they appeared in the minds of scientists. But the rest energy and rest mass of the electron and positron still remain incomprehensible. Both the physical quantity itself and the very physical meaning of these concepts of electron and positron. So is the phenomenology of physical processes leading formalisms, including mathematical ones, that is, the reliability of descriptions of events in nature.
Category: High Energy Particle Physics
[1] viXra:2305.0001 [pdf] submitted on 2023-05-01 00:21:43
Authors: Lucian M. Ionescu
Comments: 22 Pages.
The TOI Platonic groups already improved the SM allowing to explain what fermion generations, quark flavors and the CKM and PMNS mixing matrices are and how to compute them theoretically.After the unification of the fundamental forces, including Gravity,the next step is to remodel Electroweak Theory as a theory of transitions of states. The tools needed to extend the Membrane Theory from Platonic and Archimedian Klein geometries, to account for the nuclear shells, baryon spectrum etc.: modular curves, Belyi pairs, dessin d'enfant and Belyi morphisms.This approach allows to interpret mass as monodromy (curvature of quark fields connection of EM type), introducing many other finite groups: Galois groups and associated tools (Riemann surfaces, divisors, periods, tessentalions, Fuchsian groups etc.).In this way an intrinsic String Theory touches base with the Standard Model.
Category: High Energy Particle Physics
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