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[8] viXra:2104.0156 [pdf] submitted on 2021-04-26 10:57:53
Authors: Lucian M Ionescu
Comments: 6 Pages.
The generic relativistic version of a particle-eld theory,
with non-isotropic sources, includes a Gravity force perturbation of
Coulombian Force, with the usual Magnetic Force resulting from Lorentz
transformations.
The quark model of Standard Model, with fractional charge struc-
ture of nucleons enveloped by electronic clouds, mandates such non-
isotropic charges.
Dynamic Nuclear Orientation (DNO), via electronic spin and LS-
coupling, allows to invert the population of low energy Gravitational
attraction states, and achieve Gravity Control.
The 1994 scientic experiment of Dr. Frederick Alzofon has con-
rmed Gravity Control can be achieved via DNO.
Other researchers have contributed in the same general direction of
unifying Electromagnetism and Gravity, supporting the non-isotropic
charge concept, including Paul LaViolette, author of Subquantum Ki-
netics.
Category: Quantum Gravity and String Theory
[7] viXra:2104.0144 [pdf] submitted on 2021-04-24 10:32:03
Authors: Brian Slovick
Comments: 8 Pages.
Within the background field formalism of quantum gravity, I show that if the quantum fluctuations are limited to diffeomorphic transformations, all the quantum corrections vanish on shell and the effective action is equivalent to the classical action. I also show that this choice of fields renders the path integral independent of the on-shell condition for the background field, and therefore incorporates a form of background independence. The proposed approach may provide insight into the development of a finite and background independent description of quantum gravity.
Category: Quantum Gravity and String Theory
[6] viXra:2104.0103 [pdf] submitted on 2021-04-17 05:26:32
Authors: James Conor O'Brien
Comments: 15 Pages.
In 2013 Mick McCulloch demonstrated a model for Gravity from the interactions of n, N quantum states acting under Heisenberg's Uncertainty Principle in his paper "Gravity from the uncertainty principle.". In contrast to McCulloch, this paper demonstrates a broader derivation of Newtonian gravity using the Heisenberg Uncertainty Principle and the Hamilton's Principle of Least Action, generalizing and systematizes McCulloch's model; it also seeks to show that gravitational time dilation and General Relativity as a whole might have their basis in Quantum Mechanics; and finally gives a program for the Inflationary model of the Big Bang, a mechanism for the pause of the Matter Dominated universe after the Big Bang, and the continuing Expansion of the Universe from considerations of the energy density of Universe.
Category: Quantum Gravity and String Theory
[5] viXra:2104.0073 [pdf] submitted on 2021-04-12 09:43:07
Authors: Richard L Amoroso
Comments: 15 Pages. Preprint of conference address: PIRT, Physical Interpretations of Relativity Theory, ХХI International Meeting 01-05 July 2019, Bauman State Technical University Moscow, Russia, submitted to Prespacetime Journal 3-26-2021.
Microgravimetric detectors have been studied for about 40 years; recent advances include free-fall gravimeters, spring-based gravimeters, superconducting gravimeters, and atom interferometers. The most recent gravimeter advance, a microelectromechanical system (MEMS) constructed from tiny mechanical structures micro-machined from silicon, evolved from accelerometers used in cell phones to viable miniature gravimeters. Our model uses a different approach; that of measuring gravitational interaction on the polarization of EM-waves by the utility of Sagnac Effect 4-mode dual-photon propagation ring laser apparatus in the context of a Dirac polarized vacuum in terms of Extended Electromagnetic Theory, where the postulated longitudinal B(3) EM-field supports a photon mass anisotropy framework for G-wave detection.
Category: Quantum Gravity and String Theory
[4] viXra:2104.0065 [pdf] submitted on 2021-04-11 04:18:48
Authors: Philip Gibbs
Comments: 11 Pages. FQXi essay contest submission 2020
Information is the basic material of reality, but the processing of information raises paradoxes due to the self-referential nature of computability. This principle can be embraced in a theory of theories leading to the emergence of quantum mechanics, geometry and physics.
Category: Quantum Gravity and String Theory
[3] viXra:2104.0056 [pdf] submitted on 2021-04-10 20:28:05
Authors: Alexander P. Klimets
Comments: 32 Pages. 32 pp., English, Brest, Belarus
In the paper, with the help of various models, the thesis on the fundamental nature of the field form of matter in physics is considered. In the first chapter a model of special relativity is constructed, on the basis of which the priority of the massless form of matter is revealed. In the second chapter, a field model of inert and heavy mass is constructed and on this basis the mechanism of inertia and gravity of weighty bodies is revealed. In the third chapter, the example of geons shows the fundamental nature of a massless form of matter on the Planck scale. The three-dimensionality of the observable space is substantiated. In the fourth chapter, we consider a variant of solving the problem of singularities in general relativity using the example of multidimensional spaces. The last chapter examines the author's approach to quantum gravity, and establishes the basic equation of quantum gravity. The conclusions do not contradict the main thesis of the paper on the fundamental nature of the massless form of matter.
Category: Quantum Gravity and String Theory
[2] viXra:2104.0051 [pdf] submitted on 2021-04-09 07:29:23
Authors: Carlos Castro
Comments: 13 Pages.
It is shown that the radial spectrum associated with a fuzzy sphere in a $noncommutative$ phase space characterized by the Yang algebra, leads $exactly$ to a Regge-like spectrum $G M^2_l = l = 1, 2,3, \ldots $, for $all$ positive values of $l$, and which is consistent with the extremal quantum Kerr black hole solution that occurs when the outer and inner horizon radius coincide $ r_+ = r_- = G M$. The condition $ G M_l^2 = l $ is tantamount to the mass-angular momentum relation $ M^2_l = l M_p^2 $ implying that the (extremal) horizon area is quantized in multiples of the minimal Planck area. Another important feature is the holographic nature of these results
that are based in recasting the Yang algebra associated with an $8D$ noncommuting phase space, involving $ {\bf x}_\mu, {\bf p}_\nu, \mu, \nu = 0,1,2,3$, in terms of the $undeformed$ realizations of the Lorentz algebra generators $ J_{AB}$ corresponding to a $6D$-spacetime, and associated to a $12D$-phase-space with coordinates $ X_A, P_A; A = 0,1,2, \ldots, 5$. We hope that the findings in this work, relating the Regge-like spectrum $ l = G M^2 $ and the quantized area of black hole horizons in Planck bits, via the Yang algebra in Noncommutative phase spaces, will help us elucidate some of the impending issues pertaining the black hole information paradox and the role that string theory and quantum information will play in its resolution.
Category: Quantum Gravity and String Theory
[1] viXra:2104.0030 [pdf] submitted on 2021-04-07 23:25:42
Authors: Stephane H Maes
Comments: 6 Pages. All related details of the projects(and updates) can be found and followed at https://shmaesphysics.wordpress.com/shmaes-physics-site-navigation/.
The proposed model of particles as Kerr Newman black hole (regularized Qballs of condensed Higgs bosons matching Kerr Newman solitons), as derived in the multi-fold theory, or in Burinskii works, implies a composite and extended model. As a result, the form factors involved in the computation of the anomalous magnetic moment of the muon have to be corrected, not just by all the radiative corrections to consider, but also to account for the fact that the Landé g-factor will differ now from 2.
Also, in an experimental setup as in the Fermilab muon g-2, the soliton/Qball will be deformed by inertial effects (e.g. centripetal force) that can add an additional effect to the measured magnetic moment of the muons (or any other particle). However, effects remain negligible even if gravity at the Standard Model scales were to become non-negligible.
We predict that the first discrepancy will be confirmed and that it is not linked to new particles or new forces. We will see if the results published on April 7, 2021 will agree.
Category: Quantum Gravity and String Theory
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