Low energy physics and properties of extra space

S.G. Rubin (National Research Nuclear University "MEPhI")

arXiv:1212.3692·gr-qc·February 12, 2013

Low energy physics and properties of extra space

S.G. Rubin (National Research Nuclear University "MEPhI")

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TL;DR

This paper explores how multidimensional gravity and quantum fluctuations of extra space can lead to the formation of the observable universe, highlighting the importance of initial parameters and classical evolution.

Contribution

It demonstrates that a broad range of initial parameters in multidimensional gravity can produce the observable universe through quantum and classical processes.

Findings

01

Quantum fluctuations influence extra space evolution.

02

Multiple initial parameters can result in observable universe.

03

Classical evolution follows quantum fluctuations in extra space.

Abstract

The mechanism of low energy physics formation in the framework of multidimensional gravity is discussed. It is shown that a wide set of parameters of a primary theory could lead to the observable Universe. Quantum fluctuations of extra space metric and its consequent classical evolution play an important role in this process.

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