Bohmian Quantum Gravity in the Linear Field Approximation

Ali Shojai; Fatimah Shojai

arXiv:gr-qc/0306100·gr-qc·November 10, 2009

Bohmian Quantum Gravity in the Linear Field Approximation

Ali Shojai, Fatimah Shojai

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TL;DR

This paper develops a Bohmian quantum gravity framework within the linear field approximation, providing a self-consistent approach and exploring its implications for classical limits and observable phenomena.

Contribution

It introduces a novel Bohmian quantum gravity model in the linear approximation, extending quantum gravity research with new theoretical insights.

Findings

01

Derivation of a self-consistent quantum gravity theory in the linear field approximation.

02

Analysis of the Newtonian limit within the Bohmian framework.

03

Investigation of observable effects predicted by the theory.

Abstract

In this paper we have applied Bohmian quantum theory to the linear field approximation of gravity and present a self--consistent quantum gravity theory in the linear field approximation. The theory is then applied to some specific problems, the Newtonian limit, and the static spherically symmetric solution. Some observable effects of the theory are investigated.

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