Introducing quantum effects in classical theories

J.C. Fabris; O.F. Piattella; D.C. Rodrigues; B. Chauvineau; M.H.; Daouda

arXiv:1509.06806·gr-qc·February 3, 2016

Introducing quantum effects in classical theories

J.C. Fabris, O.F. Piattella, D.C. Rodrigues, B. Chauvineau, M.H., Daouda

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TL;DR

This paper investigates two methods of incorporating quantum effects into classical theories, analyzing their implications for the universe's evolution through external fields and modified conservation laws.

Contribution

It introduces two novel approaches for embedding quantum effects into classical frameworks, expanding the understanding of quantum-classical interactions.

Findings

01

Quantum effects can be integrated via external fields or modified conservation laws.

02

Both methods influence the evolution dynamics of the universe.

03

Implications for cosmological models are discussed.

Abstract

In this paper, we explore two different ways of implementing quantum effects in a classical structure. The first one is through an external field. The other one is modifying the classical conservation laws. In both cases, the consequences for the description of the evolution of the universe are discussed.

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