| viXra.org > High Energy Particle Physics > 2207 |
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| viXra.org > High Energy Particle Physics > 2207 |
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[6] viXra:2207.0162 [pdf] submitted on 2022-07-27 17:31:22
Authors: Huaiyang Cui
Comments: 9 Pages.
In analogy with the ultimate speed c, there is an ultimate acceleration β, nobody's acceleration can exceed this limit β, for electrons and quarks, β=2.327421e+29(m/s2). Because this ultimate acceleration is a large number, any effect connecting to β will become easy to test, including quantum gravity tests. In this paper, an approach is put forward to connect the ultimate acceleration with quantum theory, consequently, it is found that quark's matter wave must obey the SU(n) symmetry in a strong interaction process. It is completely a new aspect to quark model for its relativistic matter wave to contain SU(n) symmetry.
Category: High Energy Particle Physics
[5] viXra:2207.0152 [pdf] submitted on 2022-07-26 18:49:52
Authors: Hosein Nasrolahpour
Comments: 6 Pages.
N-theory deals with the space-time nonlocality in nature which in time domain results in memoryeffect. Recent results show that memory can be considered as a fundamental characteristic of allfundamental interactions. In this short note we deal with the strong interaction and address thisquestion that: do quarks as fundamental building blocks of our universe exhibit some kind ofmemory effects? We investigate this idea through the framework of fractional dynamics andalso, we discus about a possible fractional quark theory. The idea is based on some behavior andcharacteristics of quarks and quark matter that naturally can be described using fractionaloperators which intrinsically incorporate memory kernels and nonlocality. Finally, we examinethe fractional quark theory’s application in the exotic baryon spectroscopy and its power toprediction of possible future LHC results. We show that this powerful framework can reproducethe experimental mass for the exotic baryons.
Category: High Energy Particle Physics
[4] viXra:2207.0151 [pdf] submitted on 2022-07-26 18:51:07
Authors: Hosein Nasrolahpour
Comments: 7 Pages.
It seems that a perfect description of the phenomena in our universe will be uniquely possible using fractional calculus and in the framework of fractional dynamics. In this note we will focus on the concept of memory effect as one of intrinsic characteristics of fractional operators and finally we discuss this important question that, is really the nature a book written in the unifying language of fractional calculus and so are we living in a fractional dimensional universe?
Category: High Energy Particle Physics
[3] viXra:2207.0087 [pdf] submitted on 2022-07-12 15:10:15
Authors: Hamid Reza Karimi
Comments: 6 Pages.
In this article, muon lifetime is calculated by using the theory of quantized space-time and the internal structure of the elementary particles. First, we assume that the muon and the particles produced due to its decay in the decay mode of in an accelerator reach to their maximum possible speed for charged particles, is V_muon=V_ν=V_ν ̅ =299792407.5m/s. Then, the gradual decay time of muon is calculated by using the energy they have in such speed.
Category: High Energy Particle Physics
[2] viXra:2207.0048 [pdf] submitted on 2022-07-05 19:36:53
Authors: D. G. Grossman
Comments: Pages.
Which charmoniums are diquarks, and which are exotics (tetraquarks, pentaquarks, hexaquarks, heptaquarks, etc.) is revealed in this paper. A possible addition to our understanding of the nature of the X(3872) is also elucidated. It is very likely a 'd' tetraquark, but with a factoring quirk. A prime number figures prominently in its factoring.
Category: High Energy Particle Physics
[1] viXra:2207.0003 [pdf] replaced on 2022-11-16 06:08:45
Authors: Deokjin Kim
Comments: 32 Pages.
All things are composed of six fundamental particles: electron neutrino 0.1524 eV, muon neutrino 169.06 keV, tau neutrino 15.408 MeV, graviton 2.506E-10 eV, photon 0.1609 eV, and gluon 115.32 eV. All the other particles are the combined particles. They operate as logarithmic elliptic equations, which satisfy super symmetry, gauge symmetry, renormalization, spontaneous symmetry breaking, hierarchical problem, and fine-tuning universe. From this, a new standard model is drawn. In this paper, the core of previous research is summarized, previous errors are corrected, and new contents are described. The language of physics should be drawing. Various unsolved problems can be solved when the shape of every particle is accurately drawn. The core is two. 1) The compressive strength of three-dimensional quantum space formed as log-elliptic equation gives the particle mass. 2) The brane of quantum space is composed of dipoles of a total of 6 components: three generation neutrinos, graviton, photon, and gluon. Based on this, all problems in physics will be solved.
Category: High Energy Particle Physics
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