Quantum theory of nonrelativistic particles interacting with gravity

Charis Anastopoulos

Type: Article

Publication Date: 1996-07-15

Citations: 36

DOI: https://doi.org/10.1103/physrevd.54.1600

Abstract

We investigate the effects of the gravitational field on the quantum dynamics of non-relativistic particles. We consider N non-relativistic particles, interacting with the linearized gravitational field. Using the Feynman - Vernon influence functional technique, we trace out the graviton field, to obtain a master equation for the system of particles to first order in $G$. The effective interaction between the particles, as well as the self-interaction is non-local in time and in general non-markovian. We show that the gravitational self-interaction cannot be held responsible for decoherence of microscopic particles due to the fast vanishing of the diffusion function. For macroscopic particles though, it leads to diagonalization to the energy eigenstate basis, a desirable feature in gravity induced collapse models. We finally comment on possible applications.

Locations

Physical review. D. Particles, fields, gravitation, and cosmology/Physical review. D. Particles and fields - View
arXiv (Cornell University) - View - PDF
PubMed - View
DataCite API - View

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