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[6] viXra:2310.0146 [pdf] submitted on 2023-10-30 15:11:40
Authors: David H. Wei
Comments: 59 pages, 8 figures
A restricted path integral method is proposed to simulate a type of quantum system or Hamiltonian called a sum of controlled few-fermions on a classical computer using Monte Carlo without a numerical sign problem. Related methods and systems of Monte Carlo quantum computing are disclosed for simulating quantum systems and implementing quantum computing efficiently on a classical computer, including methods and systems for simulating many-variable signed densities, methods and systems for decomposing a many-variable density into a combination of few-variable signed densities, and methods and systems for solving a computational problem via Monte Carlo quantum computing.
Category: Mathematical Physics
[5] viXra:2310.0136 [pdf] submitted on 2023-10-29 22:09:29
Authors: George Bailey
Comments: 16 pages
Almost 20 years ago, de Vries proposed a recursive equation for the fine structure constant α that depends only on the mathematical constants e and π. It gives a value for 1/α = 137.0359990958. By applying the term α/(2π) in a geometric series, this equation has the flavour of mainstream physics (see Schwinger-Dyson series on calculating the electron's g-factor), which in combination with the agreement with the experimentally found value is probably the reason why this formula, unlike many other numerology attempts, is not forgotten.The starting point and core element of this equation is the term 1/e^(π^2/2). Despite interesting approaches, it has not yet been possible to give this term an unequivocal physical meaning. So I thought it worthwhile to investigate the proximity of this value to the closest power-of-two value, i.e. 128. This resulted from the considerations I made in the previous works, where I (among many others) became aware of the importance of the number 2^128 as a link between the order of magnitude of the elementary particles and the universe.Finally, another equation for α was obtained, which is roughly equivalent in complexity to the de Vries equation, depends only on π and 128, and whose result differs from the de Vries result by only about 2^10^-10.It was during my playing around with the numerical values that I found the literature that told me that at extremely high energies the fine structure "constant" increases to the value of about 1/128. So I saw another reason to publish these number juggleries. Here they are.
Category: Mathematical Physics
[4] viXra:2310.0094 [pdf] submitted on 2023-10-19 01:28:54
Authors: Ryan J. Buchanan
Comments: 6 Pages.
The contraction of a loop on a string in the orthogonal time direction is contemplated. Its relationship to a certain mathematical concept, forcing notions, is examined. In addition, we evaluate local systems on the worldline of a particle traveling in the positive timelike direction.
Category: Mathematical Physics
[3] viXra:2310.0053 [pdf] submitted on 2023-10-11 23:37:59
Authors: Parker Emmerson
Comments: 11 Pages.
The intent of this paper is to provide a simple focus on that mathematical concept and solution, phenomenological velocity to shine light on aworthy topic for mathematicians and physicists alike. Phenomenological Velocity is essential to the formulation of a gestalt cosmology. The bibliography of this paper provides references to the extensive research that has been conducted by myself on the topic. I have performed conditional integrals of the phenomenological velocity in its most liberated standard-algebraic form, I have shown that the computational-phenomenological velocity satisfies its real-analytic solutionwhen not using the speed of light in scientific notation to get the computational version, thus demonstrating that it is a valid solution. So, phenomenological velocity has profound consequences to the foundations of physics as civilization moves into a galactic scale and information is communicated at the quantumlevel, because it is such a mathematical reality it ought not be ignored when considering topics from hidden dimensions (a real, algebraic technique) and relativity to gravity and dark matter. It gives us a new perspective on how weperceive the meaning of velocity itself with pragnanz, and thus with the new meaning, perspectives can change. I hope the reader will investigate the combined research I have performed on this topic, available by referencing the works in this bibliography to fully understand the nature of the arguments being made within. So, this points the right direction for future research, perhaps even withintent to encourage experimental design.
Category: Mathematical Physics
[2] viXra:2310.0029 [pdf] submitted on 2023-10-05 01:35:15
Authors: Stephen H. Jarvis
Comments: 11 Pages.
In presenting the case for an information touchstone of logic as the code of a zero-dimensional time and space theory, in confirming what is observed of physical phenomena, the presumption of consciousness in this process of logic, information, confirmation, and thence the supposition of awareness is addressed. The manner of this address is through identifying information as themes relevant to the zero-dimensional physical theory’s derivations. In recognition of our conscious drives and abilities, the information themes are considered as being self-evident for what is generally considered as consciousness. Identified here in this paper are those basic themes in physical reality we more likely than not as conscious beings are subject to.
Category: Mathematical Physics
[1] viXra:2310.0022 [pdf] submitted on 2023-10-04 00:26:43
Authors: Stephen H. Jarvis
Comments: 18 Pages.
Proposed here is a touchstone logic for physical phenomena, notable as a proposed logic for the zero-dimensions of time and space, specifically for time as a moment and space as a point. The proposed logic utilizes the conjecture that a moment in time is not a point in space, and by their difference, according to a specific mathematically labelled logic, the dimensions of time and space become manifest. The manifestation of the dimensions from zero-dimensionality are thence shown to encompass a time and space dimensional number theory that when scaled with physical phenomena is shown to harbour all the known information of quantum field theory and general relativity. The confounding result for this zero-dimensional number theory as a physical theory is the stars beyond this solar system derived as being a holographic projection of activity in this solar system’s Hydrogen wall. Discussed here therefore is whether the proposed touchstone logos used here is or is not an exact account of physical reality’s structure.
Category: Mathematical Physics
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