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| viXra.org > Quantum Physics > 2405 |
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[8] viXra:2405.0134 [pdf] submitted on 2024-05-27 03:29:49
Authors: Алтаев Намаз Карабалаевич
Comments: 5 Pages.
The development of the results of the theory of superconductivity (BCW) is based on the idea of a deep analogy between some ideas of quantum electrodynamics and quantum hydrodynamics. On the other hand, there are reasons to doubt the basic results of quantum electrodynamics. The reason is that in order to complete the development of quantum electrodynamics, it is necessary to supplement it with the results of reassignment operations. The founder of quantum electrodynamics, Dirac, believed that such a necessity arose because of the defects in this doctrine. In this article, the main results of quantum electrodynamics and quantum hydrodynamics are obtained quite correctly on the way, where the basic ideas of scientific philosophy are taken as a basis.
Category: Quantum Physics
[7] viXra:2405.0126 [pdf] replaced on 2024-07-07 22:24:11
Authors: John Yuk Ching Ting
Comments: 35 Pages. Finalized Preprint Version for submission to journal.
Relevant to Quantum field theory, Sieve of Eratosthenes (as generating algorithm for all prime numbers) and Dirichlet eta function (proxy function for Riemann zeta function as generating function for all nontrivial zeros) are essentially infinite series. We apply infinitesimals to their outputs. We ignore even prime number 2. The complete set with its derived subsets of Odd Primes all contain arbitrarily large number of elements while satisfying Prime number theorem for Arithmetic Progressions, Generic Squeeze theorem and Theorem of Divergent-to-Convergent series conversion for Prime numbers. Having these theorems satisfied by all Odd Primes, Polignac's and Twin prime conjectures are proven to be true when usefully regarded as Incompletely Predictable Problems. Riemann hypothesis proposes complete set of all nontrivial zeros in Riemann zeta function is located on its critical line. It is separately proven to be true when usefully regarded as an Incompletely Predictable Problem.
Category: Quantum Physics
[6] viXra:2405.0087 [pdf] submitted on 2024-05-16 19:37:49
Authors: Brian Chang
Comments: 22 Pages.
This article points out that in the EPR experiment, there is no causal connection between the two sides. If a causal model wants to comply with the principle of common cause, it will lead to faster-than-light information propagation. Even if non-local latent variables are used as common factors, it does not mean that the measurement results on both sides can influence each other. They are only related to each other, but not corresponding causal relationships.The "statistical correlation" in the EPR experiment does not have a controllable effect, because the results measured on either side are completely random. The experimenter cannot control the other side to produce the results he wants to transmit by manipulating the instrument. The two experimenters can only discover the correlation between each other's data when comparing them afterwards, and they cannot use this correlation to transmit information, otherwise the incommunicability theorem will be violated.This article draws a causal model diagram to analyze the EPR experiment, and uses the Everett interpretation and the quantum circuit diagram to demonstrate. It shows that the causal paradox in the EPR experiment is actually caused by a misunderstanding of "measurement" and "collapse" in the Copenhagen interpretation. If the Everett interpretation without the concept of "collapse" is adopted, it can be avoided when interpreting the EPR experiment. Paradox of cause and effect.In Everett's interpretation, the physical meaning of "measuring" a particle is to entangle the particle with the measuring instrument. When the local particle is measured, it will only be entangled with the local instrument, so there is no non-local interaction. The state of the particle does not change in any way because the particle on the other side is measured. No matter who measures first on the left or right, there will be no influence on each other. There will be no effect of the result of the first measurement on the result of the later measurement through superluminal action, and there will be no paradox that overturns the order of cause and effect.
Category: Quantum Physics
[5] viXra:2405.0065 [pdf] submitted on 2024-05-12 12:44:05
Authors: Marcello Colozzo
Comments: 6 Pages.
We prove the famous Bloch's Theorem using the symmetry for discrete translationsin Dirac notation.
Category: Quantum Physics
[4] viXra:2405.0047 [pdf] submitted on 2024-05-08 09:18:06
Authors: Georgii Khantarzhiev
Comments: 18 Pages.
The model of a quantum object, based on the conception of a field, is presented in this research work. The way suggested allows to construct the model of a quantum object, which owns wave and particle properties simultaneously. The model is developed for the non-relativistic case and applied to three canonical experiments of quantum mechanics. This model describes successfully physical processes, happening at the quantum level, in these experiments. The analysis of some consequences of this model for the relativistic case is made. This model of a quantum object can be verified experimentally and a corresponding experiment is suggested for this goal.
Category: Quantum Physics
[3] viXra:2405.0027 [pdf] submitted on 2024-05-06 20:24:20
Authors: Miroslav Pardy
Comments: 6 Pages.
The causal arrangement of the two extended emission and detection sources and the photon source is considered. The emission source emitts the charged particle (electron) and photon. The photon source which is located betwen emission and detection sources is capable of the transmitting of space-like momenta. The photon propagates undisturbed between emission and detection sources, while the charged particle is reflected by the extended photon source. The result of such process is the modification of the vacumm-to-vacuum amplitude in form of the additional term which can beinterpreted as the additional magnetic moment of electron. The derivation is realized with the mathemathical simplicity and the Schwinger pedagogical clarity.
Category: Quantum Physics
[2] viXra:2405.0018 [pdf] submitted on 2024-05-05 20:41:37
Authors: J. B. McLeod, C. B. Wang
Comments: 19 Pages.
In this paper, a new method is discussed to derive the eigenvalue density in Hermitian matrix model with a general potential. The density is considered on one interval or multiple disjoint intervals. The method is based on Lax pair theory and Cayley-Hamilton theorem by studying the orthogonal polynomials associated with the Hermitian matrix model. It is obtained that the restriction conditions for the parameters in the density are connected to the discrete Painleve I equation, and the results are related to the scalar Riemann-Hilbert problem. Some special density functions are also discussed in association with the known results in this subject.
Category: Quantum Physics
[1] viXra:2405.0015 [pdf] submitted on 2024-05-04 21:46:27
Authors: Nimit Theeraleekul
Comments: 24 Pages.
Quantum mechanics is one of the most important theories in modern physics, despite of their predictability and accuracy; it is facing with crucial philosophic problems. Indeed the problems could be solved, and the theory could be improved by using "Vacuum Mechanics" i.e. the mechanism of vacuum medium concept.
Category: Quantum Physics
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