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[14] viXra:2102.0171 [pdf] submitted on 2021-02-28 21:15:02
Authors: Leonardo Rubino
Comments: 8 Pages.
In this paper a new version of the Schrodinger Equation is shown, where the acceleration is held in place of the space and the frequency is held in place of the time. The same happens for the Wave Equation of d’Alembert, for that of Klein-Gordon and finally for that of Dirac.
Category: Quantum Physics
[13] viXra:2102.0159 [pdf] replaced on 2021-03-15 11:27:37
Authors: Lluís Bel
Comments: 17 Pages.
Using a generalizatuion of the Klein-Gordon equation in the framework of the Swarzschild-Whitehead solution I consider the gravitational bound states of two neutral, massive, point particles tentativily called Gneutrons
Category: Quantum Physics
[12] viXra:2102.0141 [pdf] submitted on 2021-02-22 12:07:30
Authors: Tamas Lajtner
Comments: 24 Pages.
Superluminal velocities do exist in tunneling. In theories don’t. Why? Because physicists think the speed of light in spacetime is the absolute speed limit. The superluminal velocity cannot be explained within the spacetime model. How to explain the superluminal velocity during tunneling? Supposing more spaces and more times. The superluminal, tunneling particle travels in barrier. The barrier is an object from our viewpoint. But the particle uses this barrier as space. Studying the tunneling, there are many spaces. Every space has its own time unit and unit space distance. The law of speed limit remains true in every space. The speed of light is the speed limit in every space, but from our viewpoint the same particle travels at different velocities in different spaces.
It can be summarized in one sentence: A step in the country of giants is longer than in the country of dwarves.
The paper is an excerpt out of the book entitled “19 false axioms of physics”.
Category: Quantum Physics
[11] viXra:2102.0115 [pdf] submitted on 2021-02-19 21:19:12
Authors: Hailong Cui
Comments: 9 Pages. In Chinese [Corrections are made by viXra Admin to comply with the rules of viXra.org]
This paper discusses the principle of common conduction of superconductor electrons, emphasizes the possibility of cold fusion, and focuses on the so-called aluminum The micro mechanism of quantum entanglement experiment of making tympanic membrane, pointing out the further experimental direction and predicting the coming of superluminal communication
Category: Quantum Physics
[10] viXra:2102.0112 [pdf] submitted on 2021-02-18 05:06:39
Authors: Bernard Riley
Comments: 14 pages, 12 figures
My observations and measurements of the lengths of time elapsed up till the present since the occurrence of events on all time scales when converted to numbers of Planck times equal integer and fractional (half-integer, quarter-integer, eighth-integer etc) powers of π and e.
Category: Quantum Physics
[9] viXra:2102.0106 [pdf] submitted on 2021-02-17 03:38:58
Authors: Miroslav Pardy
Comments: 9 Pages. original article
We define the photoelectric effect with the specific heat term replacing the work
function. The photon propagator involving the radiative correction is also considered.
We consider the Debye specific head for the 3D crystal medium, the specific heat for the
2D medium and specific heat for the Wigner crystal.
Category: Quantum Physics
[8] viXra:2102.0087 [pdf] submitted on 2021-02-16 08:59:41
Authors: J.A.J. van Leunen
Comments: 69 Pages. This is part of the Hilbert Book Model Project
The word space is used in many ways and most of these applications give this word a different meaning. This makes the notion of space very obscure. Already in the common life of humans takes the word space many different uses. Especially philosophers, mathematicians, and physicists have attributed a huge number of interpretations of the noun “space”. This has led to a huge number of different forms of space. Humans live in an environment that is characterized by space and time. This paper focuses on the most elemental meanings that mathematicians and physicists attribute to the word “space”. Next, the immediate extensions of this elementary space are investigated. Since physicists investigate our physical reality, the paper also investigates how physical reality treats the notion of space.
Category: Quantum Physics
[7] viXra:2102.0086 [pdf] submitted on 2021-02-16 10:51:46
Authors: Gerard van der Ham
Comments: 7 Pages.
Probabilities sometimes depend on the direction in which a situation is being observed or projected. Different directions produce different probabilities for one and the same situation. And the probabilities have to be described differently. This is demonstrated by Bell-test experiments.
Category: Quantum Physics
[6] viXra:2102.0080 [pdf] submitted on 2021-02-15 11:38:29
Authors: Bernard Riley
Comments: 8 pages, 6 figures
If the value of a half-life is expressed in numbers of Planck times and that number is converted to a smaller ‘reduced number’ by application of the Quantum/Classical connection - a power-law equation - then the reduced number will be an integer power or a specific fractional power of π and of e. Integer powers of either π or e are found for the half-lives of the W boson, the Higgs boson, the muon and the tau lepton. The reduced numbers of many notable radionuclides are equal to integer, half-integer and quarter-integer powers of π and/or of e.
Category: Quantum Physics
[5] viXra:2102.0068 [pdf] replaced on 2021-02-17 08:05:17
Authors: Jean Louis Van Belle
Comments: 28 Pages.
This papers concludes our excursions into the epistemology/ontology of physics. We provide a basic overview of the basic concepts as used in the science of physics, with practical models based on orbital energy equations. We hope to make a difference by offering an alternative particle classification based on measurable form factors.
Category: Quantum Physics
[4] viXra:2102.0067 [pdf] submitted on 2021-02-12 20:29:40
Authors: Dylan Durieux, Willi-Hans Steeb
Comments: 10 Pages.
We study spin coherent states, Bell states,
entanglement, Husimi distributions, uncertainty relation, Bell inequality. The distance between these states is also derived. The Bell matrix, spin coherent states and Bell states are also investigated.
Category: Quantum Physics
[3] viXra:2102.0060 [pdf] submitted on 2021-02-11 19:43:45
Authors: Yi Cao
Comments: 23 Pages.
In this paper, we developed several new methods to describe a photon’s emission and propagation process: 1) To explain a photon that emitted from a Bohr atom from the n=3 to n=2 electron orbit transition, we added a virtual electron that doing RF rotation in a virtual 2D orbit with n=2.43, and it can intuitively explain the frequency and the transverse wave of the photon; 2) Using the newly designed {N,n} QM field theory and the non-Born probability (NBP), we described the photon’s emission and propagation process as a series excitation of a {N,n} QM field’s nLL QM state from low n to high n (e.g., from the {N,n} QM field’s ground state n=1, or |1,0,0> to the first excited state n=2, or |2,1,1>, then to the second excited n=3, or |3,2,2>, and then to the third excited state n=4, or |4,3,3>, …). To describe a photon (that propagated to high n in the {N,n} QM field) with a limited size, in the NBP density formula (of the nLL QM state in the {N,n} QM field), we used the multiplier n’ for the exponential index so that we can describe a photon with any appropriate size that we want; 3) We hypothesized that a photon has an onion-like multi-shells physical structure (a superposition of many QM states), and has a “standard” size of about 100x of its wavelength. We explained a photon’s wave-particle duality as that its out-shells have the wave character, while its inner core has the particle character. We explained a photon’s double-slit experiment as that its out-shell wave’s interference guided its inner core’s particle motion; 4) We explored the possibility that whether the redshift (with Hubble’s constant ~ 70 (km/s)/Mpc) is the natural attribute of the photon propagation; 5) Alternatively, we used only two QM states to describe a photon’s emission and propagation: the ground state of {N,n} QM field |1,0,0> and the excited state of {N,n} QM field |2,1,1>, with r1 = c * t, so that the speed of the light c is incorporated into the description. 6) We believe that the {N,n} QM field theory can be used for other particles’ description as well. Finally, we explained the physical meaning of the matter wave’s wave function as the NBP 3D distribution of a particle/celestial body’s movement trajectory (that is described by the Schrodinger equation).
Category: Quantum Physics
[2] viXra:2102.0048 [pdf] replaced on 2021-02-19 11:30:05
Authors: Jean Louis Van Belle
Comments: 12 Pages.
This papers offers a zbw (mass-without-mass) model of neutrons and protons. The neutron model is based on the idea of the electromagnetic and nuclear force combining to keep two opposite charges apart and together at the same time. We develop the orbital energy equations. Finally, we offer an alternative particle classification based on form factors, and a few words of philosophy (ontology).
Category: Quantum Physics
[1] viXra:2102.0002 [pdf] submitted on 2021-02-01 19:22:54
Authors: P. O. Ushie, C. M. Ekpo, T. O. Magu, P. O. Okoi
Comments: 26 Pages. 4 Tables, 12 Figures
Within the framework of Nikiforov-Uvarov method, we obtained an approximate solution of the Schrodinger equation for the Energy Dependent Generalized inverse quadratic Yukawa potential model. The bound state energy eigenvalues for was computed for various vibrational and rotational quantum numbers. Special cases were considered when the potential parameters were altered, resulting into Energy Dependent Kratzer and Kratzer potential, Energy Dependent Kratzer fues and Kratzer fues potential, Energy Dependent Inverse quadratic Yukawa and Inverse quadratic Yukawa Potential, Energy Dependent Yukawa (screened Coulomb) and Yukawa (screened Coulomb) potential, and Energy Dependent Coulomb and Coulomb potential, respectively. Their energy eigenvalues expressions and numerical computations agreed with the already existing literatures.
Category: Quantum Physics
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