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[9] viXra:2312.0103 [pdf] submitted on 2023-12-19 05:24:22
Authors: Tong Wang
Comments: 10 Pages.
Some commonly agreed upon behaviors of graviton are that it is massless, propagates at the speed of light, is emitted, and is absorbed between matter particles, acts like a gravitational force carrier. In this essay we propose a novel configuration for gravitons. It is a massless object with zero net mass. When a quantum of energy is transferred to it, it can store the energy internally and travel at the speed of light. When the quantum of energy that it carries is transferred out of it, it becomes massless, and its momentum is zero. By exchanging this massless object, energy can be transferred between matter particles. The net effect of this exchange is the apparent gravitational interaction between matter particles. Therefore, we consider this massless object to behave like graviton.
Category: Quantum Physics
[8] viXra:2312.0102 [pdf] replaced on 2023-12-25 10:45:55
Authors: Pierre Leroy
Comments: 9 Pages.
This document presents a principle of a wave field contained in a closed space producing fluctuations with random appearances at any point in the space. A 2D simulation shows that interference patterns produced by the interaction of this field with physical objects contained in the space make it possible to produce non-zero correlation measurements between distant points in space and specific to the objects position configuration. These correlations properties are used to explain experimental coincidences measurements having non-local appearance.
Category: Quantum Physics
[7] viXra:2312.0101 [pdf] submitted on 2023-12-19 20:21:59
Authors: Yi Cao
Comments: 23 Pages.
A pre-Sun ball (quantum) collapse process can be intuitively thought as a (mass) reversed diffusion process in r-dimension. It has been noticed for many years (and by many QM scientists) that there is similarity between Schrodinger equation and a diffusion equation. In the current paper, 1) By using Euler formula’s complex space (that was defined as the "i-space" in this article), I reformulated the expression of the orbital energy E = K + V to be K = Kθφ + iKr and V = Vθφ + iVr , and then E = K + iV* = (Kθφ + Vr) + i(Kr + Vθφ); 2) I assumed that a plane-like wave can be used as the solution (i.e., the wave function) of Schrodinger equation (either for an H-atom, or for Solar system), and then separate this 3D plane-like wave into two parts, one in r-1D only, and one in θφ-2D only; 3) Accordingly, (by guessing, not by the mathematical deduction), I separated a traditional spherical 3D Schrodinger equation into two: one in θφ-2D only, and one in r-1D only; 4) While the θφ-2D-only Schrodinger equation is almost same as the traditional one, the r-1D-only Schrodinger equation can be further degenerated into a r-1D diffusion equation with the diffusion constant D= ℏ/2m ; 5) At a citizen-scientist-level, I confirmed that the θφ-2D plane-like wave function is the solution of the θφ-2D-only Schrodinger equation, and the r-1D plane-like wave function is the solution of the r-1D-only Schrodinger equation as well as the r-1D diffusion equation. In this way, I demonstrated that Schrodinger equation may can be directly degenerated into a diffusion equation (at least in r-dimension). Furthermore, according to this explanation, the other QM scientists’ previous result of D → iℏ/2m may can be re-explained as that, the diffusion constant D= ℏ/2m not only radially diffuses in r-1D, but also laterally diffuses in θφ-2D through RF (RotaFusion, or rotation diffusion). If this explanation is correct, then the function of analyzing the E = K + V in an "i-space" maybe is to filter out the RF (the lateral diffusion) in θφ-2D, so that a pure r-1D diffusion can be obtained. Even I am not sure whether this method is correct or not, this deduction certainly opened a new route to reformulate Schrodinger equation and solution. This work may also have created a completely new way to study the relationship between the RF and the energy of the orbital motion. (Note: This article was drafted in Jan. 2020).
Category: Quantum Physics
[6] viXra:2312.0093 [pdf] submitted on 2023-12-17 03:07:16
Authors: Ryan J. Buchanan
Comments: 5 Pages.
On an absolute frame of reference, a Galois connection to a d-brane may be prescribed such that the data of the frame becomes locally presentable. We describe these connections briefly.
Category: Quantum Physics
[5] viXra:2312.0082 [pdf] replaced on 2024-03-04 13:34:13
Authors: Henok Tadesse
Comments: 13 Pages.
Zeno's paradoxes of motion are four related paradoxes created by an ancient Greek philosopher in 500 B.C. In one of the well-known paradoxes, Achilles, who is a fast runner, chases a tortoise who is initially at a point P ahead of him and moving slowly forward. Zeno argued that, by the time Achilles arrives at point P, the tortoise will have moved forward to another point P1. Although Achilles is now closer to the tortoise, he will not catch up on the second try again because by the time Achilles arrives at point P1, the tortoise will have moved to another point P2 and so on. Therefore, Achilles will never catch up with andovertake the tortoise. But we know that a fast runner can overtake a slow runner in reality. This paradox has puzzled philosophers, mathematicians and scientists for millennia. This paper reveals the mystery of the universe behind Zeno's paradoxes. There is no entity called an electron or an atom or a ball movingfrom one point to another point in space as we know it. It is profound that philosophers were able to probe the deep mystery of the universe by logic alone 2500 years ago!
Category: Quantum Physics
[4] viXra:2312.0029 [pdf] submitted on 2023-12-05 03:20:08
Authors: James Conor O'Brien
Comments: 7 Pages.
A method to constrain the Arrow of Time to the anterograde direction using the Wheeler-Feynman Time-Symmetric theory and four-vector potentials to model electrons as longitudinal electromagnetic scalar potential waves that only progress in the forward direction of Time.
Category: Quantum Physics
[3] viXra:2312.0026 [pdf] submitted on 2023-12-05 20:10:18
Authors: Austin Fearnley
Comments: 10 Pages.
The mystery for the last century at the heart Of Bell’s Theorem is quantum entanglement. This paper explores issues with entanglement and explains that the success of Bell’s Theorem experiments depends upon some particles/photons travelling backwards in time. It is also argued that QED electric charge and QCD colour charge are both directly related to time’s arrow for individual particles.
Category: Quantum Physics
[2] viXra:2312.0011 [pdf] submitted on 2023-12-02 09:37:34
Authors: Anthony David Adams
Comments: 7 Pages.
This paper introduces a theoretical framework represented by the equation E = k*I^2*C to explore the interconnections between energy, information, and consciousness. Drawing from advances in quantum mechanics and information theory, the framework suggests a deeper interplay of these elements, challenging traditional notions of their independence. We investigate the implications of this interrelationship, particularly in the context of quantum mechanics, and explore potential applications in fields ranging fromneuroscience to quantum computing. The paper aims to open a dialogue among physicists, information theorists, and consciousness researchers, fostering interdisciplinary approaches to unraveling the complexities of reality.
Category: Quantum Physics
[1] viXra:2312.0006 [pdf] replaced on 2025-01-01 19:00:18
Authors: Warren D. Smith
Comments: 30 Pages.
Although this was written as a chapter for my book-in-progress Completing Quantum Electrodynamics and other Quantum Field Theories with "cloud" (and perhaps even creating "quantum gravity" & "theory of everything"), it can stand on its own as a helpful compilation of evidence that "zero-point vacuum energy" exists.
Category: Quantum Physics
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