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| viXra.org > Quantum Physics > 2109 |
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[10] viXra:2109.0201 [pdf] submitted on 2021-09-28 19:26:23
Authors: Thomas Preusser
Comments: 35 Pages. [Corrections made by viXra Admin to conform with scholarly norm]
Vector current and axial current theory (M. Gell-Mann) is an important foundation of quantum chromodynamics (QCD) and the Standard Model of Particle Physics.1 This paper extends vector current and axial current theory to networked Higgs mechanisms. These networked Higgs mechanisms provide a basis for "timing fast and slow periodicities" and "state flipping". The theory here (G. 't Hooft) is that "timing periodicities", and "state flipping", are important foundations of entanglement, dark matter, and bridging that which is quantum to that which is classical.2 Timing periodicities at the quantum level is in turn based on the theoretical concept of quantum clocking within a time-invariant dynamical system (Wilczek), which in this paper comes in the form of projective elliptics.22-23
Coincident with confirmation of the Higgs boson at the Large Hadron collider (LHC), scientists proposed, as a next big step, the Circular Electron Positron Collider (CEPC) to be completed in 2030.3-4 Much like the search for the Higgs drove the LHC, the search for dark matter will drive CEPC. This paper predicts a dark matter portal, and associated dark matter / energy, at the MeV, below electro-weak, scale. The Beyond the Standard Model Physics Working Group, and others, theorize that "... a viable possibility (for dark matter) is so called hidden sector physics, that comprises new particles with masses below the electro-weak (EW) scale that couple very weakly to the Standard Model (SM) world via portals".5-8
Category: Quantum Physics
[9] viXra:2109.0189 [pdf] submitted on 2021-09-26 07:18:27
Authors: Steven Kenneth Kauffmann
Comments: 3 Pages.
The classical source-free electric field is a polar transverse-vector field, but the classical magnetic field is an axial transverse-vector field. A derivative-related linear transformation (which is its own inverse) of the classical axial magnetic field in fact produces an alternate polar transverse-vector representation of the classical magnetic field. The classical source-free complex-valued electromagnetic polar transverse-vector field whose real part is the classical source-free polar electric field, and whose imaginary part is the alternate polar representation of the classical source-free magnetic field, turns out to satisfy the time-dependent Schroedinger equation whose Hamiltonian operator is that of the free photon. That classical source-free complex-valued electromagnetic polar transverse-vector field can, moreover, be slightly linearly modified to become the normalized wave function of the free photon.
Category: Quantum Physics
[8] viXra:2109.0175 [pdf] submitted on 2021-09-24 21:56:46
Authors: Jianping Mao
Comments: Pages. European Journal of Applied Physics, 3(5), 63-66. https://doi.org/10.24018/ejphysics.2021.3.5.110
One of possibilities for that why like charges repel and opposite charges attract was a photon possessing negative and positive two poles that with an up or down spin frequency – any integer -- offers a fresh insight into photon energies.
Category: Quantum Physics
[7] viXra:2109.0171 [pdf] submitted on 2021-09-23 06:38:48
Authors: Gordon Stewart Watson
Comments: 5 Pages.
In our terms, this is Bell's 1964 theorem, ‘No local hidden-variable theory can reproduce exactly the quantum mechanical predictions.' Against this, and bound by what Bell takes to be Einstein's definition of locality, we refute Bell's theorem and reveal his error. We show that Einstein was right: the physical world is local; and we advance Einstein's quest to make quantum mechanics intelligible in a classical way. With respect to understanding, and taking mathematics to be the best logic, the author is as close as an email: eprb@me.com
Category: Quantum Physics
[6] viXra:2109.0162 [pdf] submitted on 2021-09-22 08:10:07
Authors: Asutosh Kumar
Comments: 5 Pages.
Weak-measurement induced quantum discord or super quantum discord (SQD) is a generalization of the normal quantum discord and is defined as the difference between quantum mutual information and classical correlation obtained by weak measurements in a given quantum system. This correlation is an information-theoretic measure and is, in general, different from entanglement-separability measures such as entanglement. Super quantum discord may be nonzero even for certain separable states. So far, SQD has been calculated explicitly only for a limited set of two-qubit quantum states and expressions for more general quantum states are not known. In this article, we derive explicit expressions for SQD for X states, a seven real-parameter family of two-qubit states and investigate its monogamy properties. The monogamy behaviour of SQD depends on the measurement strength. The formalism can be easily extended to N-qubit X states.
Category: Quantum Physics
[5] viXra:2109.0148 [pdf] replaced on 2021-12-04 11:31:30
Authors: Alireza Jamali
Comments: 4 Pages.
Using results derived earlier by the author (viXra:2103.0006), in this letter after generalising E=hf, its inverse Fourier transform is calculated.
Category: Quantum Physics
[4] viXra:2109.0135 [pdf] submitted on 2021-09-16 19:05:35
Authors: Victor Vaguine
Comments: 14 Pages.
A brief review and analysis of historical models of the electron, such as the charged spin-ning sphere, Goudsmit and Uhlenbeck’s idea, and the charged spinning ring leads to dis-covery of principal component in the electron inner structure – the c-ring. The AQM intrinsic electron model based on the c-ring successfully explains the charge fractionation in quan-tum chromodynamics and the 3D configuration and the formation of Cooper pairs in super-conductivity.
Category: Quantum Physics
[3] viXra:2109.0133 [pdf] submitted on 2021-09-15 21:11:07
Authors: Yichen Huang
Comments: 6 Pages. Preprint number: MIT-CTP/5326
It is well known that in Anderson localized systems, starting from a random product state the entanglement entropy remains bounded at all times. However, we show that adding a single boundary term to an otherwise Anderson localized Hamiltonian leads to unbounded growth of entanglement. Our results imply that Anderson localization is not a local property. One cannot conclude that a subsystem has Anderson localized behavior without looking at the whole system, as a term that is arbitrarily far from the subsystem can affect the dynamics of the subsystem in such a way that the features of Anderson localization are lost.
Category: Quantum Physics
[2] viXra:2109.0118 [pdf] submitted on 2021-09-12 10:42:08
Authors: M. W. Roberts
Comments: 19 Pages.
The design of Delphi 3 is modified to produce an ultra-fast, long range optical communication system. This system should be especially useful for deep space communications.
Category: Quantum Physics
[1] viXra:2109.0019 [pdf] submitted on 2021-09-03 19:10:09
Authors: V. A. Kuz`menko
Comments: 3 Pages.
Two simple ways of experimentally studying the properties of the nonlocal memory of quantum systems are discussed.
Category: Quantum Physics
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