High Energy Particle Physics

1904 Submissions

[25] viXra:1904.0584 [pdf] replaced on 2019-06-11 15:44:21

Fibonacci Motives

Authors: M. D. Sheppeard
Comments: 11 Pages.

Motives are well connected to graphical techniques in quantum field theory. In motivic quantum gravity we consider categorical axioms, starting with the ribbon category of the Fibonacci anyon. Quantum logic dictates that the cardinality of a classical set is replaced by the dimension of a space. In this note we look at the geometry underlying Fibonacci numbers and apply it to the algebra of multiple zeta values and cyclic particle braids.
Category: High Energy Particle Physics

[24] viXra:1904.0577 [pdf] submitted on 2019-04-29 11:17:14

Never Before Seen Radioactive Decay

Authors: George Rajna
Comments: 69 Pages.

The Colorado State University professor of physics studies the fundamental matter particles known as neutrinos, and an exceedingly rare instance of radioactive decay in which neutrinos-otherwise present in such decays-are nowhere to be found. [39] Determining features of the elusive particle known as a neutrino-through the observation of an extremely rare nuclear process called neutrinoless double-beta decay (The inclusion of short-range interactions in models of neutrinoless double-beta decay could impact the interpretation of experimental searches for the elusive decay. [34] The occasional decay of neutrons into dark matter particles could solve a long-standing discrepancy in neutron decay experiments. [33] The U.S. Department of Energy has approved funding and start of construction for the SuperCDMS SNOLAB experiment, which will begin operations in the early 2020s to hunt for hypothetical dark matter particles called weakly interacting massive particles, or WIMPs. [32] Thanks to low-noise superconducting quantum amplifiers invented at the University of California, Berkeley, physicists are now embarking on the most sensitive search yet for axions, one of today's top candidates for dark matter. [31]
Category: High Energy Particle Physics

[23] viXra:1904.0542 [pdf] replaced on 2019-06-11 15:20:59

Systems of Linear Dyson-Schwinger Equations

Authors: Henry Kißler
Comments: 26 Pages.

Systems of Dyson-Schwinger equation represent the equations of motion in quantum field theory. In this paper, we follow the combinatorial approach and consider Dyson-Schwinger equations as fixed point equations that determine the perturbation series by usage of graph insertion operators. We discuss their properties under the renormalization flow, prove that fixed points are scheme independent, and construct solutions for coupled systems with linearized arguments of the insertion operators.
Category: High Energy Particle Physics

[22] viXra:1904.0491 [pdf] submitted on 2019-04-25 16:58:55

Controlled Thermonuclear Fusion

Authors: A. I. Andreus
Comments: 4 Pages, in Russian and English of Google.

Controlled thermonuclear fusion. There is a phenomenology of the nature of electrino and positrino. It is described as a postulate on the structure of an electron and a positron from electrino and positrino. Postulated as absolute symmetry, the tetrahedron-cubic basis of the world - ASTC. It is necessary to carry out research in the implementation of the creation and maintenance of the environment of free electrino and positrino with a certain energy density per unit volume for the implementation of controlled thermonuclear fusion.
Category: High Energy Particle Physics

[21] viXra:1904.0467 [pdf] submitted on 2019-04-24 12:30:41

Exotic Nuclear Decay in Dark Matter Detector

Authors: George Rajna
Comments: 44 Pages.

An exotic and extremely rare nuclear decay that involves the simultaneous capture of two atomic electrons by a xenon-124 nucleus has been observed in a dark-matter detector. [27] This week, scientists from around the world who gathered at the University of California, Los Angeles, at the Dark Matter 2018 Symposium learned of new results in the search for evidence of the elusive material in Weakly Interacting Massive Particles (WIMPs) by the DarkSide-50 detector. [26]
Category: High Energy Particle Physics

[20] viXra:1904.0461 [pdf] replaced on 2019-10-21 17:00:47

Liberating Preons from Four Dimensions

Authors: Fabrizio Vassallo
Comments: 4 Pages.

A possible internal structure of the recently discovered X (Hungarian) boson is proposed as an application of a preon model.
Category: High Energy Particle Physics

[19] viXra:1904.0456 [pdf] submitted on 2019-04-23 08:22:45

Next-Generation Nuclear Reactors

Authors: George Rajna
Comments: 68 Pages.

In the core of operating nuclear reactors Engineers must manage a maelstrom. [38] Matter is composed of chemical elements mainly created in stars via nuclear reactions and complex nuclear reaction networks. [37] These particles are produced by stellar flares or by shock waves driven by magnetic events in the stellar corona. [36] Researchers have investigated wave-particle interactions between energetic electrons and chorus waves evolving in the space surrounding the Earth using the scientific satellite Arase and, simultaneously, transient auroral flashes by the ground-based global observation network. [35] The universe consists of a massive imbalance between matter and antimatter. [34] Our universe could be the mirror image of an antimatter universe extending backwards in time before the Big Bang. [33] "As you celebrate New Year's Day, cast an eye upward and think for a moment about the amazing things our country and our species can do when we set our minds to it," Stern wrote in the New York Times on Monday. [32] Our senses are stuck in the past. There's a flash of lightning, and then seconds pass until we hear the rumble of distant thunder. We hear the past. [31] ESA's technical centre in the Netherlands has begun running a pulsar-based clock. The "PulChron' system measures the passing of time using millisecond-frequency radio pulses from multiple fast-spinning neutron stars. [30] VR is an almost perfect avenue for this approach, since it has been surging in popularity as both entertainment and an educational tool. [29] Using MAGIC telescopes and NASA's Fermi spacecraft, an international team of astronomers has discovered a new source of very high energy gamma-ray emission around the supernova remnant (SNR) G24.7+0.6. [28] In 1973, Russian physicist A.B. Migdal predicted the phenomenon of pion condensation above a critical, extremely high-several times higher than that for normal matter-nuclear density. [27]
Category: High Energy Particle Physics

[18] viXra:1904.0445 [pdf] submitted on 2019-04-23 21:02:45

The Relationship of the Mole and Charge

Authors: Jeff Yee
Comments: 4 pages

In this paper, the mole and charge are related by deriving Avogadro’s number from three constants: the Bohr radius, the Planck length and Euler’s number.
Category: High Energy Particle Physics

[17] viXra:1904.0426 [pdf] replaced on 2019-05-19 05:16:31

An Experiment to Show that there is Gravitational Interaction Among Photons, Because They Have Non-Null Imaginary Gravitational Masses

Authors: Fran De Aquino
Comments: 3 Pages.

An experimental arrangement, using two petawatts laser beams, is proposed here in order to show that the two laser beams interact gravitationally between them, due to the photons have non-null imaginary gravitational mass.
Category: High Energy Particle Physics

[16] viXra:1904.0364 [pdf] submitted on 2019-04-18 08:48:29

Dark Matter at Large Hadron Collider

Authors: George Rajna
Comments: 59 Pages.

Now that they've identified the Higgs boson, scientists at the Large Hadron Collider have set their sights on an even more elusive target. [44] A team of researchers in the Republic of Korea, the U.S., Brazil, Indonesia and the U.K. have recently carried out a direct search for inelastic boosted dark matter (IBDM) using a terrestrial detector. [33] After watching YouTube videos of people supercooling water in a bottle and then triggering it to freeze by banging it, something about this concept solidified for Matthew M. Szydagis, an assistant professor of physics at the University at Albany, State University at New York, especially when he saw it again during the Disney movie "Frozen." [32]
Category: High Energy Particle Physics

[15] viXra:1904.0363 [pdf] submitted on 2019-04-18 08:52:44

A Brief Analysis of the Research Scheme of the Cyclotron Radiation from a Single Electron

Authors: DING Jian
Comments: 16 Pages.

The experiments of Project 8 have been excellent, but the expected goals still difficult to achieve. So much so that some of the results at your fingertips were also missing. In view of this, the focus of this article is to clarify several easy confused concepts. Only in this way, we can reasonably explain the experimental data. The main points are as follows: 1. The value c of the light speed in vacuum and a particle with zero static mass, both of which do not exist in the reality. That is to say, the so-called a photon's static mass is equal to zero but has energy, which is a paradox that confuses two different definitional domains. 2. In the reality, photons are high-speed particles generated by electromagnetic radiation. They must have the characteristics of (static) mass, energy and wave, in order to describe the main body to aim at photons from different angles. 3. After any main body comes into being electromagnetic radiation, its static mass will inevitably decrease according ly. 4. The charge-mass ratio of an electron is a physical constant, which is the ratio of its charge to the amount of matter, and is not affected by relativistic effects and electromagnetic radiation. 5. The uncertainty of moving electrons is caused by random electromagnetic radiations. Finally, it is pointed out that if the cyclotron frequency of a single electron is measured, and at the same time, its de Broglie wavelength or frequency can also be measured, then its static mass can be obtained. Even so, the expected goals are still difficult to achieve, because random electromagnetic radiations are always taking away continually the matter composition of the single electron being measured. However, this was precisely a result of the research obtained by Project 8, and had universality, which should be reflect on.
Category: High Energy Particle Physics

[14] viXra:1904.0352 [pdf] submitted on 2019-04-19 02:59:16

Charm Quarks at CEBAF

Authors: George Rajna
Comments: 88 Pages.

The world's most advanced particle accelerator for investigating the quark structure of the atom's nucleus has just charmed physicists with a new capability. [47] Bob Zwaska, a scientist at the U.S. Department of Energy's Fermilab, was watching a contestant on the cooking show Chopped spin sugar for their dessert when he realized the same principle might be applicable to accelerator targets. [46] Physicists at the U.S. Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL) have discovered valuable information about how electrically charged gas known as "plasma" flows at the edge inside doughnut-shaped fusion devices called "tokamaks." [45] A class exercise at MIT, aided by industry researchers, has led to an innovative solution to one of the longstanding challenges facing the development of practical fusion power plants: how to get rid of excess heat that would cause structural damage to the plant. [44] Schematic of a magnetic nozzle rf plasma thruster (helicon plasma thruster) having two open source exits and photographs of the three operation modes in the laboratory test. [43] Researchers at MIT's Plasma Science and Fusion Center (PSFC) have now demonstrated how microwaves can be used to overcome barriers to steady-state tokamak operation. [42] Plasma particle accelerators more powerful than existing machines could help probe some of the outstanding mysteries of our universe, as well as make leaps forward in cancer treatment and security scanning-all in a package that's around a thousandth of the size of current accelerators. [41] The Department of Energy's SLAC National Accelerator Laboratory has started to assemble a new facility for revolutionary accelerator technologies that could make future accelerators 100 to 1,000 times smaller and boost their capabilities. [40]
Category: High Energy Particle Physics

[13] viXra:1904.0351 [pdf] submitted on 2019-04-19 03:16:50

Protons Spin Flipper

Authors: George Rajna
Comments: 89 Pages.

Protons spin. It's an intrinsic property that can affect experiments at accelerators that use beams of protons. [48] The world's most advanced particle accelerator for investigating the quark structure of the atom's nucleus has just charmed physicists with a new capability. [47] Bob Zwaska, a scientist at the U.S. Department of Energy's Fermilab, was watching a contestant on the cooking show Chopped spin sugar for their dessert when he realized the same principle might be applicable to accelerator targets. [46] Physicists at the U.S. Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL) have discovered valuable information about how electrically charged gas known as "plasma" flows at the edge inside doughnut-shaped fusion devices called "tokamaks." [45] A class exercise at MIT, aided by industry researchers, has led to an innovative solution to one of the longstanding challenges facing the development of practical fusion power plants: how to get rid of excess heat that would cause structural damage to the plant. [44] Schematic of a magnetic nozzle rf plasma thruster (helicon plasma thruster) having two open source exits and photographs of the three operation modes in the laboratory test. [43] Researchers at MIT's Plasma Science and Fusion Center (PSFC) have now demonstrated how microwaves can be used to overcome barriers to steady-state tokamak operation. [42] Plasma particle accelerators more powerful than existing machines could help probe some of the outstanding mysteries of our universe, as well as make leaps forward in cancer treatment and security scanning-all in a package that's around a thousandth of the size of current accelerators. [41] The Department of Energy's SLAC National Accelerator Laboratory has started to assemble a new facility for revolutionary accelerator technologies that could make future accelerators 100 to 1,000 times smaller and boost their capabilities. [40]
Category: High Energy Particle Physics

[12] viXra:1904.0350 [pdf] submitted on 2019-04-19 03:37:34

Energy Flow in Plasma

Authors: George Rajna
Comments: 80 Pages.

Whether studying the core of our sun or the inside of a fusion reactor, scientists need to determine how energy flows in plasma. Scientists use simulations to calculate the flow. [43] Researchers at MIT's Plasma Science and Fusion Center (PSFC) have now demonstrated how microwaves can be used to overcome barriers to steady-state tokamak operation. [42]
Category: High Energy Particle Physics

[11] viXra:1904.0306 [pdf] submitted on 2019-04-17 03:43:22

Spinning Targets for Accelerators

Authors: George Rajna
Comments: 87 Pages.

Bob Zwaska, a scientist at the U.S. Department of Energy's Fermilab, was watching a contestant on the cooking show Chopped spin sugar for their dessert when he realized the same principle might be applicable to accelerator targets. [46] Physicists at the U.S. Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL) have discovered valuable information about how electrically charged gas known as "plasma" flows at the edge inside doughnut-shaped fusion devices called "tokamaks." [45] A class exercise at MIT, aided by industry researchers, has led to an innovative solution to one of the longstanding challenges facing the development of practical fusion power plants: how to get rid of excess heat that would cause structural damage to the plant. [44] Schematic of a magnetic nozzle rf plasma thruster (helicon plasma thruster) having two open source exits and photographs of the three operation modes in the laboratory test. [43] Researchers at MIT's Plasma Science and Fusion Center (PSFC) have now demonstrated how microwaves can be used to overcome barriers to steady-state tokamak operation. [42] Plasma particle accelerators more powerful than existing machines could help probe some of the outstanding mysteries of our universe, as well as make leaps forward in cancer treatment and security scanning-all in a package that's around a thousandth of the size of current accelerators. [41] The Department of Energy's SLAC National Accelerator Laboratory has started to assemble a new facility for revolutionary accelerator technologies that could make future accelerators 100 to 1,000 times smaller and boost their capabilities. [40] The authors designed a mechanism based on the deployment of a transport barrier to confine the particles and prevent them from moving from one region of the accelerator to another.
Category: High Energy Particle Physics

[10] viXra:1904.0277 [pdf] submitted on 2019-04-16 04:23:39

Understanding Fusion Device

Authors: George Rajna
Comments: 84 Pages.

Physicists at the U.S. Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL) have discovered valuable information about how electrically charged gas known as "plasma" flows at the edge inside doughnut-shaped fusion devices called "tokamaks." [45] A class exercise at MIT, aided by industry researchers, has led to an innovative solution to one of the longstanding challenges facing the development of practical fusion power plants: how to get rid of excess heat that would cause structural damage to the plant. [44] Schematic of a magnetic nozzle rf plasma thruster (helicon plasma thruster) having two open source exits and photographs of the three operation modes in the laboratory test. [43] Researchers at MIT's Plasma Science and Fusion Center (PSFC) have now demonstrated how microwaves can be used to overcome barriers to steady-state tokamak operation. [42] Plasma particle accelerators more powerful than existing machines could help probe some of the outstanding mysteries of our universe, as well as make leaps forward in cancer treatment and security scanning-all in a package that's around a thousandth of the size of current accelerators. [41] The Department of Energy's SLAC National Accelerator Laboratory has started to assemble a new facility for revolutionary accelerator technologies that could make future accelerators 100 to 1,000 times smaller and boost their capabilities. [40] The authors designed a mechanism based on the deployment of a transport barrier to confine the particles and prevent them from moving from one region of the accelerator to another. "There is strong experimental evidence that there is indeed some new physics lurking in the lepton sector," Dev said. [38]
Category: High Energy Particle Physics

[9] viXra:1904.0193 [pdf] replaced on 2019-05-17 20:04:53

Real Clifford Algebras and Our Universe: VOID to Cl(16) Lagrangian to Cl(1,25) AQFT

Authors: Frank Dodd Tony Smith Jr
Comments: 38 Pages.

This paper is an outline of basic ideas of Cl(16) and Cl(1,25) Physics. For details see my papers listed at viXra for author/frank_dodd_tony_smith_jr including vixra 1903.0485 about the Nambu-Jona-Lasinio Higgs-Truth Quark System. Version 2 (v2) adds page about 3 Generations. Version 3 (v3) adds discussion about African history and Cellular Automata.
Category: High Energy Particle Physics

[8] viXra:1904.0191 [pdf] replaced on 2019-04-17 08:32:08

Quantization of Electromagnetic Field in Rindler Space-Time

Authors: Sangwha Yi
Comments: 7 Pages.

The article treats quantization of lectromagnetic field that is defined in Rindler spacetime. Likely the electromagnetic field, the potential did quantizated in inertial frame, the electromagnetic field, the potential can quantizate by the transformation of electromagnetic field or the transformation of the potential in the accelerated frame
Category: High Energy Particle Physics

[7] viXra:1904.0189 [pdf] submitted on 2019-04-09 08:29:16

ATLAS Measure Higgs Boson Coupling

Authors: George Rajna
Comments: 32 Pages.

As only about 1 percent of the Higgs bosons are produced in association with a top-quark pair at the Large Hadron Collider (LHC), achieving this observation was especially challenging. [29] The ATLAS collaboration has released its very first result utilising its entire Large Hadron Collider (LHC) Run 2 dataset, collected between 2015 and 2018. [28] The Antiproton Decelerator (AD), sometimes known as the Antimatter Factory, is the world's largest source of antimatter and has been operational since 2000. [27]
Category: High Energy Particle Physics

[6] viXra:1904.0173 [pdf] submitted on 2019-04-08 09:07:35

Time-Reversal Violation for Matter

Authors: George Rajna
Comments: 41 Pages.

Physicists theorize that this time-reversal violation is the key ingredient needed to unravel the cosmic mystery of the missing antimatter. [26] The arrow of time and the accelerated expansion are two fundamental empirical facts of the universe. [25] The intensive, worldwide search for dark matter, the missing mass in the universe, has so far failed to find an abundance of dark, massive stars or scads of strange new weakly interacting particles, but a new candidate is slowly gaining followers and observational support. [24] "We invoke a different theory, the self-interacting dark matter model or SIDM, to show that dark matter self-interactions thermalize the inner halo, which ties ordinary dark matter and dark matter distributions together so that they behave like a collective unit." [23] Technology proposed 30 years ago to search for dark matter is finally seeing the light. [22] They're looking for dark matter-the stuff that theoretically makes up a quarter of our universe. [21] Results from its first run indicate that XENON1T is the most sensitive dark matter detector on Earth. [20] Scientists at Johannes Gutenberg University Mainz (JGU) in Germany have now come up with a new theory on how dark matter may have been formed shortly after the origin of the universe. [19] Map of dark matter made from gravitational lensing measurements of 26 million galaxies in the Dark Energy Survey. [18] CfA astronomers Annalisa Pillepich and Lars Hernquist and their colleagues compared gravitationally distorted Hubble images of the galaxy cluster Abell 2744 and two other clusters with the results of computer simulations of dark matter haloes. [17]
Category: High Energy Particle Physics

[5] viXra:1904.0159 [pdf] submitted on 2019-04-09 03:37:45

About Parity Conservation

Authors: Ilgaitis Prūsis, Peteris Prūsis
Comments: 4 pages

According to contemporary physics the conservation law of parity states that parity is conserved in electromagnetism, strong interactions and gravity. In weak interactions the parity can be violated. This article shows that violation of parity conservation in the weak interactions is apparent. In reality, parity is also conserved in weak interactions.
Category: High Energy Particle Physics

[4] viXra:1904.0135 [pdf] submitted on 2019-04-06 09:17:01

Kaon Lifetime and Decay

Authors: Ilgaitis Prūsis, Peteris Prūsis
Comments: 4 pages

The Standard Model presumes that there are two different types of neutral kaons, i.e., short-lived KS kaons which decay to 2 pions and long-lived kaons KL which decay to 3 pions. This article shows that in reality there is only one type of neutral kaons. The lifetime of kaons depends on their velocity in the gravity field. The fast kaons have more energy, more lifetime and therefore they can decay to 3 pions. If the fast kaons slow down they lose energy and therefore can decay only to 2 pions.
Category: High Energy Particle Physics

[3] viXra:1904.0104 [pdf] submitted on 2019-04-06 04:01:07

Big Look at Tiny Particles

Authors: George Rajna
Comments: 86 Pages.

In a recent paper, a team led by Constantia Alexandrou at the University of Cyprus modeled the location of one of the subatomic particles inside a proton, using only the basic theory of the strong interactions that hold matter together rather than assuming these particles would act as they had in experiments. [46] "Spin has surprises. Everybody thought it's simple … and it turns out it's much more complicated," Aschenauer says. [45] Approximately one year ago, a spectacular dive into Saturn ended NASA's Cassini mission-and with it a unique, 13-year research expedition to the Saturnian system. [44] Scientists from the Niels Bohr Institute, University of Copenhagen, and their colleagues from the international ALICE collaboration recently collided xenon nuclei, in order to gain new insights into the properties of the Quark-Gluon Plasma (the QGP)-the matter that the universe consisted of up to a microsecond after the Big Bang. [43] The energy transfer processes that occur in this collisionless space plasma are believed to be based on wave-particle interactions such as particle acceleration by plasma waves and spontaneous wave generation, which enable energy and momentum transfer. [42] Plasma particle accelerators more powerful than existing machines could help probe some of the outstanding mysteries of our universe, as well as make leaps forward in cancer treatment and security scanning-all in a package that's around a thousandth of the size of current accelerators. [41] The Department of Energy's SLAC National Accelerator Laboratory has started to assemble a new facility for revolutionary accelerator technologies that could make future accelerators 100 to 1,000 times smaller and boost their capabilities. [40] The authors designed a mechanism based on the deployment of a transport barrier to confine the particles and prevent them from moving from one region of the accelerator to another.
Category: High Energy Particle Physics

[2] viXra:1904.0103 [pdf] submitted on 2019-04-06 05:33:39

Mass Deficit and Topology of Nucleons

Authors: Michael Tzoumpas
Comments: 5 Pages.

Nucleus is identical with the lower inverse electric-nuclear field where a rapid increase of its potential occurs with a corresponding reduction of the space cohesive pressure, resulting to the mass deficit of the neutron entering the nucleus and to the finding of its location potential. Therefore, the so called topology of the nucleons can be now found. So, the neutrons are stable into the lower inverse nuclear field where a reduced cohesive pressure prevails. Moreover, there would be no nuclei without the presence of neutrons that reduce the negativity of the protons field, while neutrons are those that move into the nuclei (with the remaining half of their kinetic energy) on circular orbits around immobilized protons which have spin only.
Category: High Energy Particle Physics

[1] viXra:1904.0036 [pdf] replaced on 2019-04-06 08:24:53

Further Evidence for the Cantor Dust Composition of Dark Matter

Authors: Ervin Goldfain
Comments: 3 Pages.

Recent experiments continue to falsify the hypothesis that Dark Matter (DM) consists of quantum-like particles resembling the content of the Standard Model (SM). Several arguments also exist against theories where DM arises from modifications or thermodynamic analogs of General Relativity (GR). These findings indirectly favor earlier interpretations of DM as Cantor Dust, an outcome of the minimal fractal structure of spacetime near or above the electroweak scale. Cantor Dust is consistent with the idea of Unmatter, an exotic phase containing fractional numbers of quanta per state, mixing particles with their antiparticles and carrying arbitrary non-integer spins.
Category: High Energy Particle Physics