Quantum Gravity and String Theory

1901 Submissions

[13] viXra:1901.0426 [pdf] submitted on 2019-01-29 04:46:08

4x and 3x Interference for Stringy Bose Einstein Black Hole Production.

Authors: Leo Vuyk
Comments: 25 Pages.

Quantum FFF ( Function Follows Form) theory is a Rigid String Theory postulating, that the vacuum is filled with a local variable Planck scaled lattice of oscillating closed torus strings called Axion-Higgs (AH) particles, analog to Dark Energy and the origin of Casimir effects. These AH strings are able to transform over 4x internal hinges due to real particle collision into different singular open Strings, such as the Electron and Positron or all Photons and Gluons. Photons and Gluons, Electrons and Positrons can wrap around each other, to form a series of compound Quarks or Bosons, well know as the “Standard Model” (SM) with new physics extensions like monopole photons. Model research on string form possibilities, show that only the single so called general photon and two monopole magnetic photons ( N and S) are able to form very rigid closed complex rigid string knots. Three copy magnetic monopole particles ( North or South) are able to form two different ring shaped string knots, which are both called the Higgs particles possessing 124,5 and 126 GeV. Four general photon copy strings however, are able to form a ring shaped knot which is also called Higgs which is assumed to possess more mass. Indications of a third high mass Higgs particle are already showed up in the LHC at Geneva at about 375 GeV. As a consequence of these ring shaped Higgs particles, I suggest, that the ring shape is a suitable form to connect with other ring shaped Higgses and form more complex compound black hole nuclei. Such combined Higgs nuclei could be able to grow by laser- of magnetic interference into a more massive particle which can become stable and resistant for the vacuum oscillations after it has reached a certain minimum volume. The result is called a Bose Einstein stringy black hole, which can be compared with a Ball Lightning nucleus.
Category: Quantum Gravity and String Theory

[12] viXra:1901.0416 [pdf] replaced on 2019-03-08 12:44:05

On the Compactification of the Gravitational Field

Authors: Shawn Halayka
Comments: 1 Page.

The emission of gravitons by a mass is considered.
Category: Quantum Gravity and String Theory

[11] viXra:1901.0413 [pdf] submitted on 2019-01-28 02:47:42

Loop Holes in Quantum Reality on Relativistic Approach.

Authors: Durgadas Datta.
Comments: 6 Pages. A relook on our theories.

Why quantum physics is so difficult to understand? Is it the wrong way we are putting up.
Category: Quantum Gravity and String Theory

[10] viXra:1901.0327 [pdf] replaced on 2019-02-07 10:18:36

Evidence for Unique Steady-State Flickering Tachyonic Determinist Cyclic Computing Simple Cosmos

Authors: F. M. Sanchez
Comments: 24 Pages. absract, introduction and conclusion in French

A la mémoire de Michael Atiyah... The observed fine tuning between Physical dimensionless parameters is interpreted as relations between optimal calculation basis of a Deterministic Grandcosmos Computer. The Large Period is given by the conjunction of two mandatory c-free dimensional analysis (CFDA), corresponding to the holic dimension 30 of the Topological axis f(n) = exp(2^(n/4)), with the Compton Electron wavelength as unit length. The Cartan-Bott period 8 define the gauge bosons : GUT (n = 22), Weak (n = 14), and Gluon (n = 6) with a non-standard mass about 10 me. The visible Universe horizon radius R is given both by ADHC, Eddington's statistical theory, and the gravitational Hydrogen molecule model. R is tied to the dimension 26 of Bosonic Tachyonic String Theory, corresponding to the cosmic photon (n = 18), the Atom and Pion (n = 10, canonic Supersting dimension) and the String (n = 2). The Atiyah constant Gamma = gamma a/p c, where a = 137.035991... is the electrical constant, corresponds to the virtual dimension √(a/3) and enters ppb (10^-9) relations which confirm Superstring Theory, implying the weak interaction and intermediate bosons, the gravitation and the fermions mu and tau. The Brout – Englert – Higgs scalar boson is tied both to the type 1 string gauge dimension 496 and the virtual dimension gamma x Gamma. This third perfect number 496 plays a central role in a Geo-combinatorial Relation tying the four coupling constants. The terminal fermion tau is related (10^-7) to the Moonshine dimension D =196883 of the Monster. The ACDFA gives also the CMB temperature. tied to a double holographic relation 1D-2D-3D. This correspond to the mandatory replacement, in a Single Cosmos, of differential equations by integral ones. The Eddington's Large Number enters a Machian relation implying the trivial fraction 3/10 of the critical Universe mass and main particle masses, showing that back energy is a false problem. In a Cosmos with ultra-plankian reconstruction mater-antimater, black matter would be in phase quadrature. The ACDA relies also three unexplained facts: Kotov, Tifft and Pioneer, probably tied to the tachyonic Space-Time-Matter regeneration. The Large Period is tied to the Kotov one by the cardinal order of the Monster, which presents, as well as the canonic f(30) and the holographic Grandcosmos radius impressive relations with free parameters of the standard Model. It is suggested that 26 of them could be defined by the 26 sporadic groups. In particular, this unification Physics-Mathematics justifies the Inverse Anthropic Principle and excludes the non-scientific Multiverse hypothesis. It is concluded that present mathematics is incomplete, not recognizing physical parameters as mathematical ones. This could lead to a super-informatics.
Category: Quantum Gravity and String Theory

[9] viXra:1901.0294 [pdf] replaced on 2023-01-07 10:01:31

Ramanujan Summation of the Ln(n) Series

Authors: Jesús Sánchez
Comments: 9 Pages.

In this paper it will calculated that the Ramanujan summation of the Ln(n) series is: lim┬█(n→∞)⁡(Ln(1)+Ln(2)+Ln(3)+⋯Ln(n))=Ln(-γ)=Ln(γ)+(2k+1)πi Being γ the Euler-Mascheroni constant 0.577215... The solution is valid for every integer number k (it has infinite solutions). The series are divergent because Ln(n) tends to infinity as n tends to infinity. But, as in other divergent series, a summation value can be associated to it, using different methods (Cesàro, Abel or Ramanujan). If we take the logarithm of the absolute value (this is, we take only the real part of the solution), the value corresponds to the smooth continuation to the y axis of the curve that calculates the partial sums at every point, as we will see in the paper. lim┬█(n→∞)⁡(Ln|1|+Ln|2|+Ln|3|+⋯Ln|n|)=Ln|-γ|=Ln|γ|
Category: Quantum Gravity and String Theory

[8] viXra:1901.0222 [pdf] submitted on 2019-01-15 14:01:08

A Universe from Nothing or Big Bounce?

Authors: S.Natarajan, R.Chandramohan
Comments: 6 Pages. article published in IJRAR - International Journal of Research and Analytical Reviews. DoI: http://doi.one/10.1729/Journal.19102

The beginning of the universe is explained by many theoretical aspects. The cosmological evolution begins with the singularity. Such singularities predict the initial conditions of the universe. To deal the singularity there are lots of mathematical models have been proposed. In particular universe from nothing model, that deals the beginning of the universe as nonsingular and initiated out of nothing scenario. Similarly loop quantum cosmology resolves the initial singularity with quantum geometry. That resolution replaces the big bang with big bounce. Initial conditions of the universe in vacuum dominated states and loop quantum cosmological bouncing solutions is analyzed in this work. Minimal scale factor and critical density is analyzed to scrutinize the formation of universe from nothing. It is been interpreted that the universe from vacuum solutions replicate the dark energy dominated final stages of the universe , which leads to cyclic cosmology.
Category: Quantum Gravity and String Theory

[7] viXra:1901.0218 [pdf] submitted on 2019-01-15 07:01:36

Thermal Relativity, Corrections to Black-Hole Entropy, Born's Reciprocal Relativity Theory and Quantum Gravity

Authors: Carlos Castro
Comments: 19 Pages. Canadian Journal of Physics

Starting with a brief description of Born's Reciprocal Relativity Theory (BRRT), based on a maximal proper-force, maximal speed of light, inertial and non-inertial observers, we derive the $exact$ Thermal Relativistic $corrections$ to the Schwarzschild, Reissner-Nordstrom, Kerr-Newman black hole entropies, and provide a detailed analysis of the many $novel$ applications and consequences to the physics of black holes, quantum gravity, minimal area, minimal mass, Yang-Mills mass gap, information paradox, arrow of time, dark matter, and dark energy. We finalize by outlining our proposal towards a Space-Time-Matter Unification program where matter can be converted into spacetime quanta, and vice versa.
Category: Quantum Gravity and String Theory

[6] viXra:1901.0207 [pdf] submitted on 2019-01-14 23:21:31

The Logic of the Success/failure System

Authors: Dong-Yih Bau
Comments: Pages. Journal-ref: IJASRM 4(2): 254-258 (2019). DOI:10.36282/IJASRM/4.2.2019.1199

Understanding the universe is a treasured pursuit of humanity. The success/failure system hypothesis (success/failure system) reflects the mesoscopic structure of the universe, just as quantum mechanics formalizes the microcosmos, and general relativity, the macrocosmos. Herein, we depict the logical analysis of the success/failure system using Einstein’s principle theory and apply Russell’s analytic philosophy to examine the logical structure of the universe critically. This paper has two goals. First, it aims to show that humanity is able to analyse the cosmos to reveal rationality or intelligence manifested in the universe, as demonstrated by the success/failure system. Second, it emphasizes that the success/failure system may need to be incorporated into our understanding of the cosmos or a final theory of our universe, which would become the triad of quantum mechanics, general relativity and success/failure system.
Category: Quantum Gravity and String Theory

[5] viXra:1901.0201 [pdf] submitted on 2019-01-15 04:07:42

New Quantum Gravity Theory and Rotation Curve of Galaxies

Authors: Ravindra Sidramappa Mundase
Comments: 8 Pages.

The rotation curve of galaxy is a graph of the rotational velocity of stars, gas and other bodies orbiting around the center of galaxy and their radial distance from the centre of galaxy. The orbital speeds of stars, gas and other bodies contained in the galaxy do not obey the rules found in the other orbital systems. Stars are orbiting around their galaxy's centre at equal or increasing speed over a large range of distances. In contrast, the orbital velocities of planets in solar system and moons orbiting around the planets decrease with distance. The galaxy rotation problem is the discrepancy between observed galaxy rotation curve and theoretical prediction based on the observed luminous or baryonic material or bodies. When mass profiles of galaxies are calculated from the distribution of stars and mass- to- light ratios in stellar disk, they do not match with the masses derived from the observed rotation curve and law of gravity. None of the existing theories including Newtonian gravity and general relativity can explain the Galaxy rotation curve correctly. The rotation curve of galaxies will be explained by using new quantum gravity developed by me.
Category: Quantum Gravity and String Theory

[4] viXra:1901.0181 [pdf] replaced on 2019-01-14 13:42:22

The Origin of Jarlskog Invariant and Applications

Authors: Sylwester Kornowski
Comments: 7 Pages.

The different size scales in Nature and CP violation lead to very simple our pre-Cosmos with left-handed polarization which has transformed into the left-handed internal helicity of the baryons - it solves the matter-antimatter asymmetry. The simplest grainy surface that can have internal helicity is the torus/charge/spin (or loop) with toroidal and poloidal speeds. Here we showed that the ratio of such speeds leads to both the Jarlskog invariant and a spilled half-jet in grainy spacetime (i.e. to an additional arrow of time) which is responsible for CP violation. The Jarlskog invariant allows you to calculate the lifetimes of the neutron and weakly decaying hyperons.
Category: Quantum Gravity and String Theory

[3] viXra:1901.0143 [pdf] replaced on 2022-03-26 16:50:40

Reconciling the Cosmological Constant with the Energy Density of Quantum Field Theories of the Zeropoint

Authors: Remi Cornwall
Comments: 6 Pages. Cosmological Constant 120 orders of magnitude problem solved.

This paper results from our investigation into novel means of electromagnetic propulsion. It requires the basis of our claims to be put on a sound theoretical footing regarding the purported momentum exchange with the electromagnetic field. One of these concerns is the huge discrepancy between the energy density of the Zeropoint and its purported manifestation as the Cosmological Constant. Here we state that it is manifestly wrong to introduce the zeropoint at zero order into the stress-energy tensor, because it is something which describes zero particle count. As a fluctuation, it belongs in a higher order Taylor expansion in frequency of the stress-energy tensor. Furthermore in the 3rd order in the Einstein constant our procedure is some 9 orders of magnitude too small. We make up this difference by suggesting that vacuum energy is much higher still and that more degrees of freedom exist in physics beyond the Standard Model or that there is interaction energy between the modes.
Category: Quantum Gravity and String Theory

[2] viXra:1901.0087 [pdf] submitted on 2019-01-08 03:46:50

Holographic Geometry Space-Time

Authors: Kuyukov Vitaly
Comments: 1 Page.

Holographic the time and holographic principle
Category: Quantum Gravity and String Theory

[1] viXra:1901.0081 [pdf] submitted on 2019-01-06 13:04:56

How Unsolved Problems in Orthodox Physics are Solved in the Scale-Symmetric Theory (SST)?

Authors: Sylwester Kornowski
Comments: 11 Pages.

To make it easier to confront unsolved problems in orthodox physics with the solutions proposed in the SST, we grouped problems in the same way as it is done in Wikipedia. Here we have very roughly described the way of solving the problem and refer to the SST literature where you can find more detailed qualitative and quantitative descriptions. Emphasize that SST is derived ab initio.
Category: Quantum Gravity and String Theory