Quantum Gravity and String Theory

1404 Submissions

[5] viXra:1404.0477 [pdf] submitted on 2014-04-30 09:32:28

Does the Leech Lattice Constrain String Vibrations?

Authors: David Brown
Comments: 6 Pages.

Is Milgrom the Kepler of contemporary cosmology? If X is to string theory as Kepler’s laws are to Newtonian theory then what is X? What questions should string theorists ask? Are string vibrations confined to 3 copies of the Leech lattice? If string vibrations are confined to 3 copies of the Leech lattice, then what might be the implications for Einstein’s field equations? Does inertial resistance to gravitational acceleration become infinite as energy density approaches some natural upper limit? Is nature infinite if and only if the equivalence principle is 100% empirically valid? Consider Fredkin’s finite nature hypothesis: In any mathematical model related to physics, a complete infinity is either a mathematical convenience or a physical mistake. What might be the implications of the Fredkin hypothesis for gravitational theory? Does Wolfram’s automaton create approximate symmetries that falsely appear as completely valid symmetries above the Planck scale? Do string vibrations cause an unexpected inertial resistance to gravitational acceleration? This brief communication discusses the idea: (Inert mass) * Acceleration = (Intensity of the gravitational field) * (Gravitation mass) * (Scale factor related to the Leech lattice).
Category: Quantum Gravity and String Theory

[4] viXra:1404.0443 [pdf] submitted on 2014-04-23 05:44:57

On Clifford Space Relativity, Black Hole Entropy, Rainbow Metrics, Generalized Dispersion and Uncertainty Relations

Authors: Carlos Castro
Comments: 18 Pages. Submitted to Foundations of Physics

An analysis of some of the applications of Clifford Space Relativity to the physics behind the modified black hole entropy-area relations, rainbow metrics, generalized dispersion and minimal length stringy uncertainty relations is presented.
Category: Quantum Gravity and String Theory

[3] viXra:1404.0437 [pdf] submitted on 2014-04-21 04:12:58

Dynamics of Dark Energy Inside the Cosmological Horizon

Authors: Vitaly Kuyukov P.
Comments: 6 Pages.

The article discusses the dynamics of cosmological vacuum in the de sitter Universe with emphasis on the so-called quantum cosmology. The evolution of the Universe, governed dark energy, compared with evolution obliged dynamic quantum vacuum. Current data indicate that our universe balances in a narrow region on the border between phantom energy, the cosmological constant and quintessence. Future observations will help to determine the nature of dark energy. This article describes the evolution of the future of the Universe with variable cosmological constant . When restricting the event horizon of the Universe, there exists a nonzero temperature of the Hawking. This effect leads to the decrease of the cosmological event horizon after a stage of expansion of the Universe with dark energy. Time compression in this universe is determined only cosmological constant. I see a new destiny of the Universe, which is significantly different from the endless cooling in the standard model.
Category: Quantum Gravity and String Theory

[2] viXra:1404.0102 [pdf] submitted on 2014-04-12 12:10:40

Lestone's Heuristic String Theory and Eternal Cosmological Inflation

Authors: David Brown
Comments: 6 Pages.

In a 2007 publication Lestone suggested that at the Planck scale there might be a model of the electron consisting of 3 vibrating strings confined to a 2-sphere. Lestone’s heuristic string theory suggests that, at the Planck scale, among the fundamental particles of the Standard Model massive bosons might be 1-spheres, leptons might be 2-spheres, and quarks might be 3-spheres. I have conjectured that the Koide formula and Lestone’s heuristic string theory are essential for understanding the foundations of physics. I have also conjectured that contrived brane interactions can allow string theory and eternal cosmological inflation to explain any plausible or implausible physics. String theory with the infinite nature hypothesis might imply the string landscape, superpartners, and eternal cosmological inflation. String theory with the finite nature hypothesis might imply that the multiverse has a big bang that recurs every 81.6 ± 1.7 billion years, that the Fernández-Rañada-Milgrom effect is empirically valid, and that the inflaton field emits electromagnetic radiation according to the Space Roar Profile Prediction. From the data for the Lambda-CDM model, for the total observed mass-energy, the fraction of dark energy is .728±.016. String theory with the finite nature hypothesis might explain why (1 – .728)/.728 is approximately 3/8 (= 27/72). In this brief communication there is a discussion of the compatibility of Lestone’s heuristic string theory with eternal cosmological inflation.
Category: Quantum Gravity and String Theory

[1] viXra:1404.0035 [pdf] replaced on 2014-10-06 21:38:37

Underlying Cuboctahedron Packing of Planck Spinning Spheres Structure of the Hubble Universe Correlation with Higgs, W Boson, Z Boson, Bottom Quark and Top Quark Masses a Structure Like Buckminster Fullers Vector Equilibrium

Authors: Michael John Sarnowski
Comments: 5 Pages.

Due to the propagation of light, gravity, charge, magnetism etc., and their quantized values, it has been hypothesized that, the universe should be filled with some type of almost homogeneous structure. It was shown in “Discrete Calculations of Charge and Gravity with Planck Spinning Spheres and Kaluza Spinning Spheres”( 1) that charge and gravity could be modeled by a sphere with a Compton wavelength radius of the neutron. If the neutron Compton wavelength is important to the propagation of charge and gravity then it is proposed that it also must be connected to some structure of the volume in which these forces are transmitted. “Underlying Cuboctahedron Packing of Planck Spinning Spheres Structure of the Hubble Universe” establishes a strong correlation, on multiple levels, between underlying packing of Planck Spinning Spheres structure of the Hubble Universe correlation with higgs mass, W boson, Z boson, bottom Quark and top Quark and a cuboctahedron –Vector Equilibrium structure using the mass of the neutron and the combining of the layers of a cuboctahedron packing of spheres. The layers of a cuboctahedron follow a consistent progression for the quantity of spheres that can be packed in a layer. The masses of the w boson, z boson, bottom quark, top quark and the Higgs can be directly correlated to the first few layers of a cuboctahedron structure, and in a mirror manner described in this paper. I believe that Buckminster Fuller predicted space to be a cuboctahedron framework, but could not find a reference.
Category: Quantum Gravity and String Theory