Quantum Physics

2104 Submissions

[9] viXra:2104.0114 [pdf] submitted on 2021-04-19 06:02:11

Theory of Universe 1: Quantum Demystification

Authors: Mathan Thava
Comments: 57 Pages.

In this paper, I will propose a new theory to explain everything in our Universe . The view/theory described in this paper will show that the secret behind the Universe is much simpler than we think, and it is fundamentally classical. Initially, I wanted to cover everything in a single paper. But the text started to get enormous and clumsy, so I decided to split it into three parts. And this is the first part of the series where I will explain the new theory and apply it to some quantum phenomena to prove how well this theory addresses quantum theory’s mysteries and the Universe itself. I will conclude the paper by representing the inanimate Universe using a simple equation, Z=∫é In part-2 of this paper series, I will cover some of the misconception introduced by Einstein’s theories. Especially the spacetime concept, which I like to call Einstein’s catastrophe . Part-3 is a prequel to the theory introduced in this paper.
Category: Quantum Physics

[8] viXra:2104.0105 [pdf] submitted on 2021-04-18 12:25:45

Wave Particle and Electron Spin

Authors: Kamal L Rajpal
Comments: 9 Pages, 6 Figures, 2 Animations.

A solitary electron in free space is not a fixed particle at rest in a given inertial frame of reference. It is always oscillating in a simple harmonic motion (SHM) in its own electromagnetic inertia field, even at zero kelvin temperature. A Newtonian particle exhibits uniform motion in a straight line. A quantum particle like the electron exhibits uniform motion along a sine wave path. This explains the physical concept of the wave-particle nature of the electron. As the mass of a quantum particle increases, the wavelength of the particle decreases as per French physicist Louis de Broglie. In the limiting case the sine wave becomes a straight line. Also, a hypothetical electron without an electric charge is like the bob of a simple pendulum without a string. In an electron-spin qubit, the electron can oscillate either clockwise or anti-clockwise and cannot oscillate both clockwise and anti-clockwise at the same time. It cannot be both spin-up and spin-down at the same time.
Category: Quantum Physics

[7] viXra:2104.0084 [pdf] submitted on 2021-04-13 11:16:34

Quantum Reconciliation Via the Planck Constant

Authors: D.B. Libby
Comments: 10 Pages.

One of the long-standing conundrums of science is the exact mathematical relationship of quantum mechanics to Newtonian physics, as well as to relativistic physics. Herein it is shown to be possible to use the Planck constant as represented by the quantum formula for photon energy, E=hc/λ , where h is the Planck constant, and using an approach similar to Bohr’s classical mechanical solution for the atom, to construct equations that show the mathematical relationship among all three in fundamental terms. This has the possibility of showing how relativity applied to Newtonian physics produces a quantum mechanical result, and may lead to a better understanding of quantum mechanics from a non-statistical approach, as well as possibly allowing a direct calculation of quantum gravity.
Category: Quantum Physics

[6] viXra:2104.0082 [pdf] submitted on 2021-04-13 12:08:26

On the Resolution of Time Paradoxes by Altered Quantum Probabilities

Authors: Andrew Gray
Comments: 11 Pages.

The consequences of the ability to send information back in time, albeit with an error rate, are considered. It is shown that time paradoxes are avoided due to the error rate, but that in the process quantum probabilities within the time machine are altered. It is then shown that by setting up appropriate causal loops we may alter external quantum probabilities. Further, it is shown that probabilities can be altered in chaotic classical systems as well.
Category: Quantum Physics

[5] viXra:2104.0077 [pdf] submitted on 2021-04-12 00:15:24

Ungerade Orbital Parity and Symmetry with Balanced Positive and Negative Nuclear Magnetic Moments for Above Room Temperature, Lower Pressure Superconductivity

Authors: Reginald B. Little
Comments: 7 Pages. The author demonstrates the role of ungerade orbital parity for contributing to superconductivity.

The mystery of superconductivity has intrigued scientists for 110 years now. The author in 2014 specifically predicted the superconductivity in carbon, sulfur and hydrogen compounds [1] and generally predicted carbonaceous, hydrogeneous and sulfurous compounds in 2005 [2] with reference to scattering to asymmetric orbital motions and associated spin and orbital exchanges between nuclei and electrons. The emphasis was in 2005 upon stronger electron and nuclear interactions and electron phonon effects. But here the author develops more the ungerade parity of the p and f orbitals and their contributions to the superconductivity at lower pressures and higher temperatures. On the basis of such, the role of parity from the Origin and Inflation of the Universe is noted and Dark and Bright Energy and Matter in the mature Universe is reasoned. Moreover the superconductors are all reasoned by positive and negative NMMs with availability of ungerade parities of p and f subshells and their orbitals.
Category: Quantum Physics

[4] viXra:2104.0044 [pdf] submitted on 2021-04-09 20:19:30

Explaining Pomeranchuk Effect by Parity of Magnetic Moments of Leptons and Hadrons for Superconductivity in 3He and Graphene

Authors: Reginald B. Little
Comments: 3 Pages. The author demonstrates consistency of his theory of high temp superconductivity with also explaining Pomeranchuk Effect.

The Little Effect is presented for explaining the Pomeranchuk Effect and thereby further explaining superconductivity and superfluidity of 3He. On the bases of successes of Little Effect via positive and negative nuclear magnetic moments (NMMs) in particular negative NMMs of 3He, the superconductivity in twisted graphene is explained and also its recently discovered Pomeranchuk Effect.
Category: Quantum Physics

[3] viXra:2104.0041 [pdf] submitted on 2021-04-08 09:35:03

The Subjectivity of Reality

Authors: Bernard Riley
Comments: 29 pages, 30 figures

The lengths of time elapsed up till the present since the occurrence of all past events, as ‘measured numbers’ of Planck times, and also the ‘reduced numbers’ derived from the measured numbers by way of the Quantum/Classical Connection, a power-law equation, take values equal to integer and specific fractional powers of π, π/2 and e. Pairs of related events result in symmetrically related powers of π, π/2 and e. A geometrical basis is hypothesised for the storage of the measured and reduced numbers.
Category: Quantum Physics

[2] viXra:2104.0036 [pdf] submitted on 2021-04-07 22:57:39

Schrodinger Equation for Light

Authors: Miroslaw Kozlowski
Comments: 5 Pages. [Corrections made by viXra Admin to conform with the requirements on the Submission Form]

In this paper, the author developes the Schrodinger Equation (hyperbolic) for Lux.
Category: Quantum Physics

[1] viXra:2104.0021 [pdf] submitted on 2021-04-05 17:57:41

A Design for a Quantum Time Machine, Using Weak Measurement and Non-Orthogonal Post-Selection

Authors: Andrew Gray
Comments: 10 Pages.

A design for a time machine, capable of transmitting information backwards in time, is presented. It achieves this by combining weak measurement of photons with a post-selection of non-orthogonal polarisation states. The non-orthogonal outcomes are the result of using a certain photonic metamaterial. As it is based on weak measurement, the accuracy of the time machine is not very high, thus avoiding the occurrence of time paradoxes.
Category: Quantum Physics