Quantum Gravity Microstates from Fredholm Determinants

Many approaches to quantum gravity consider the revision of the space-time geometry and the structure of elementary particles. One of the main candidates is string theory. It is possible that this theory will be able to describe the problem of hierarchy, provided that there is an appropriate Calabi-Yau geometry. In this paper we will proceed from the traditional view on the structure of elementary particles in the usual four-dimensional space-time. The only condition is that quarks and leptons should have a common emerging structure. When a new formula for the mass of the hierarchy is obtained, this structure arises from topological quantum theory and a suitable choice of dimensional units.

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Braking effect in quantum gravity

10.31219/osf.io/qe7vw ◽

2020 ◽

Author(s):

Vitaly Kuyukov

Keyword(s):

Quantum Gravity

Braking effect in quantum gravity

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Review on hermiticity of the volume operators in Loop Quantum Gravity

General Relativity and Gravitation ◽

10.1007/s10714-019-2541-2 ◽

2019 ◽

Vol 51 (5) ◽

Author(s):

S. Ariwahjoedi ◽

I. Husin ◽

I. Sebastian ◽

F. P. Zen

Keyword(s):

Quantum Gravity ◽

Loop Quantum Gravity

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Gauge Dependence of Counter-Terms and Renormalizability Problem in Quantum Gravity

Progress of Theoretical Physics Supplement ◽

10.1143/ptps.110.159 ◽

1992 ◽

Vol 110 ◽

pp. 159-178 ◽

Cited By ~ 1

Author(s):

Shoichi Ichinose

Keyword(s):

Quantum Gravity ◽

Gauge Dependence

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A strong astrophysical constraint on the violation of special relativity by quantum gravity

Nature ◽

10.1038/nature01882 ◽

2003 ◽

Vol 424 (6952) ◽

pp. 1019-1021 ◽

Cited By ~ 184

Author(s):

T. Jacobson ◽

S. Liberati ◽

D. Mattingly

Keyword(s):

Quantum Gravity ◽

Special Relativity

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High energy scattering in perturbative quantum gravity at next-to-leading power

Physical Review D ◽

10.1103/physrevd.103.064036 ◽

2021 ◽

Vol 103 (6) ◽

Author(s):

Ratindranath Akhoury ◽

Ryo Saotome ◽

George Sterman

Keyword(s):

Quantum Gravity ◽

High Energy ◽

Energy Scattering ◽

Perturbative Quantum ◽

High Energy Scattering

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MEASUREMENTS AND INFORMATION IN SPIN FOAM MODELS

International Journal of Modern Physics A ◽

10.1142/s0217751x12501643 ◽

2012 ◽

Vol 27 (28) ◽

pp. 1250164

Author(s):

J. MANUEL GARCÍA-ISLAS

Keyword(s):

Information Theory ◽

Quantum Gravity ◽

Cosmological Constant ◽

Shannon Entropy ◽

Three Dimensional ◽

Spin Network ◽

Spin Foam Models ◽

Foam Model ◽

Spin Foam Model ◽

Spin Foam

In the three-dimensional spin foam model of quantum gravity with a cosmological constant, there exists a set of observables associated with spin network graphs. A set of probabilities is calculated from these observables, and hence the associated Shannon entropy can be defined. We present the Shannon entropy associated with these observables and find some interesting bounded inequalities. The problem relates measurements, entropy and information theory in a simple way which we explain.

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Non-Riemannian gravity actions from double field theory

Journal of High Energy Physics ◽

10.1007/jhep06(2021)173 ◽

2021 ◽

Vol 2021 (6) ◽

Author(s):

A. D. Gallegos ◽

U. Gürsoy ◽

S. Verma ◽

N. Zinnato

Keyword(s):

Field Theory ◽

Quantum Gravity ◽

Condensed Matter ◽

Equations Of Motion ◽

Technical Note ◽

Action Principle ◽

Relativistic Symmetry ◽

Gravitational Theories ◽

Double Field Theory

Abstract Non-Riemannian gravitational theories suggest alternative avenues to understand properties of quantum gravity and provide a concrete setting to study condensed matter systems with non-relativistic symmetry. Derivation of an action principle for these theories generally proved challenging for various reasons. In this technical note, we employ the formulation of double field theory to construct actions for a variety of such theories. This formulation helps removing ambiguities in the corresponding equations of motion. In particular, we embed Torsional Newton-Cartan gravity, Carrollian gravity and String Newton-Cartan gravity in double field theory, derive their actions and compare with the previously obtained results in literature.

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Isomorphisms between determinantal point processes with translation-invariant kernels and Poisson point processes

Ergodic Theory and Dynamical Systems ◽

10.1017/etds.2020.123 ◽

2020 ◽

pp. 1-14

Author(s):

SHOTA OSADA

Keyword(s):

Point Processes ◽

Duke Math ◽

Random Point ◽

Determinantal Point Processes ◽

Fredholm Determinants ◽

Poisson Point Processes ◽

Translation Invariant ◽

Ergodic Properties ◽

Tree Representations ◽

Invariant Kernels

Abstract We prove the Bernoulli property for determinantal point processes on $ \mathbb{R}^d $ with translation-invariant kernels. For the determinantal point processes on $ \mathbb{Z}^d $ with translation-invariant kernels, the Bernoulli property was proved by Lyons and Steif [Stationary determinantal processes: phase multiplicity, bernoullicity, and domination. Duke Math. J.120 (2003), 515–575] and Shirai and Takahashi [Random point fields associated with certain Fredholm determinants II: fermion shifts and their ergodic properties. Ann. Probab.31 (2003), 1533–1564]. We prove its continuum version. For this purpose, we also prove the Bernoulli property for the tree representations of the determinantal point processes.

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