Gravitation, the Quantum, and Cosmological Constant

Pawel O. Mazur

arXiv:hep-th/9603014·hep-th·November 18, 2014·6 cites

Gravitation, the Quantum, and Cosmological Constant

Pawel O. Mazur

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TL;DR

This paper explores the microscopic basis of gravity, examining the links between the cosmological constant, quantum theory, black hole radiation, and inertia, proposing foundational ideas for a unified gravitational theory.

Contribution

It introduces a new microscopic framework for understanding universal gravitation and its connections to quantum phenomena and cosmological aspects.

Findings

01

Statistical arguments for active gravitational mass constituents

02

Proposed basis for a microscopic theory of gravity

03

Discussion on the relation between cosmological constant and quantum theory

Abstract

The arguments of statistical nature for the existence of constituents of active gravitational masses are presented. The present paper proposes a basis for microscopic theory of universal gravitation. Questions like the relation of cosmological constant and quantum theory, black hole radiance and the nature of inertia are addressed. This paper is the second in the series of papers published in Acta Physica Polonica {\bf B}.

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Taxonomy

TopicsAdvanced Thermodynamics and Statistical Mechanics · Relativity and Gravitational Theory · Quantum Mechanics and Applications