| viXra.org > High Energy Particle Physics > 2010 |
 |
 |
| viXra.org > High Energy Particle Physics > 2010 |
|
|
[5] viXra:2010.0252 [pdf] replaced on 2020-11-20 10:11:56
Authors: Gang Chen, Tianman Chen, Tianyi Chen
Comments: 28 Pages. 7 figures.
In light of Chen’s formulas of the fine-structure constant [2,3], we construct similar formulas to calculate proton and neutron to electron mass ratios, H, He and Li atoms to electron mass ratios and elementary particles to electron mass ratios. It was found that the formulas of elementary particles to electron mass ratios had two types, accordingly elementary particles were supposed to have two genders, i.e., Yang (convex) or Yin (concave), and the Yang/Yin ratio of all quarks and leptons is 1/2. Consequently, a hypothetical model called Mass Model of Elementary Particle was established. In the model, a formula of an elementary particle to electron mass ratio is consist of a Time Factor (TF) times a Space Factor (SF). A Time Factor is a single integer, a Space Factor has an integer plus or minus at least one modified sub-factor (called Sub-space Factor (SSF)), which decides the particle’s gender is Yang or Yin. Based on the model, all elementary particles (including neutrinos and the particle of dark matter) to electron mass ratios were calculated, the mystery why quarks and leptons have three generations could be explained, and the mystery of matter and antimatter imbalance in the universe could be explained.
Category: High Energy Particle Physics
[4] viXra:2010.0172 [pdf] submitted on 2020-10-21 20:11:06
Authors: Ali Yousif Hassan Edriss
Comments: 33 Pages. [Corrections made by viXra Admin to conform with scholarly norm]
This paper discusses author’s equations compared with related scientific papers and already made devices that are working now, these devices are made for some purposes such as: High power energetic laser applications: Such as nuclear exploration, astrophysics, Electromagnetic Bomb or Gun, Weather controlling by high density Laser (Teramobile), and so on. Industrial applications such as: laser cutting machines, laser welding, photochemical reactions, communications, and so on. Medicines purposes: cancer medications, dentistry’s applications, physiotherapy’s applications, laser for LASIK, Wound healing, pain relief and healing with, laser therapy, osteoarthritis, laser for Glaucoma, and so on. I will use here in my paper some given information like (photon energies and intensities) which obtained from Device’s Catalog and then substitute these information on my equations to evaluate and modify it. This strange idea came out after all my failed attempts to do confirmed experiments. In this paper I adopt the screenshots I took from advertising devices’ companies with putting web links to them, then I discuss through comparing with my equations. In the beginning I will give an introduction to the author’s equations and pointing to my reading about, then I will discuss with pictures- if I could- and papers why these equipment act like that. This step is servicing my situation because there are no experiments done to approve my equations so I adopt the comparison between my results and devices’ parameters or papers’ results. In this paper I follow a systemic graduation from high dense and energetic lasers to moderate until very low energy and density trying to give physical explanation according to my equations. Then I adopt new ideas about the optimum using of these equations especially in telecommunications and satellite efficiency.
Category: High Energy Particle Physics
[3] viXra:2010.0154 [pdf] submitted on 2020-10-20 10:36:08
Authors: Thomas J. Buckholtz
Comments: 126 Pages.
We try to solve three decades-old physics challenges. List all elementary particles. Describe dark matter. Describe mechanisms that govern the rate of expansion of the universe. We propose new modeling. The modeling uses extensions to harmonic oscillator mathematics. The modeling points to all known elementary particles. The modeling suggests new particles. Based on those results, we do the following. We explain observed ratios of dark matter amounts to ordinary matter amounts. We suggest details about galaxy formation. We suggest details about inflation. We suggest aspects regarding changes in the rate of expansion of the universe. We interrelate the masses of some elementary particles. We interrelate the strengths of electromagnetism and gravity. Our work seems to offer new insight regarding applications of harmonic oscillator mathematics. Our work seems to offer new insight regarding three branches of physics. The branches are elementary particles, astrophysics, and cosmology.
Category: High Energy Particle Physics
[2] viXra:2010.0150 [pdf] submitted on 2020-10-19 14:23:37
Authors: Sylwester Kornowski
Comments: 1 Page.
Here we claim that the monoenergetic peak at (2.3 +- 0.2) keV in the XENON1T experiment is a result of exchange effects in beta decay emission. The SST leads to a peak at 2.415 keV. More precise data from XENON1T will show whether our proposal (i.e. 2.415 keV) is correct.
Category: High Energy Particle Physics
[1] viXra:2010.0069 [pdf] submitted on 2020-10-10 11:22:03
Authors: Vladimir Pastushenko
Comments: 16 Pages.
A single theory is not a theory of everything. These are unified equations for electromagnetic fields (Maxwell) and equations for gravitational fields. These are the unified equations of relativistic dynamics of the Special Theory of Relativity and quantum relativistic dynamics. These are the unified equations of the General Theory of Relativity and quantum gravity.
Category: High Energy Particle Physics
| Third-Party Links: |
|