Induced wormholes due to quantum effects of spherically reduced matter   in large N approximation

S. Nojiri; O. Obregon; S.D. Odintsov; and K.E. Osetrin

arXiv:hep-th/9812164·hep-th·September 17, 2009

Induced wormholes due to quantum effects of spherically reduced matter in large N approximation

S. Nojiri, O. Obregon, S.D. Odintsov, and K.E. Osetrin

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TL;DR

This paper explores how quantum effects in a large N approximation can induce primordial wormholes in the early universe, providing analytical and numerical solutions that suggest possible topological phase transitions.

Contribution

It introduces a new analytical and numerical framework for modeling primordial wormholes induced by quantum effects in a large N setting.

Findings

01

Analytical solution for a self-consistent primordial wormhole with constant radius.

02

Numerical solutions showing increasing throat radius and red-shift function.

03

Indications of a possible topological phase transition.

Abstract

Using one-loop effective action in large N and s-wave approximation we discuss the possibility to induce primordial wormholes at the early Universe. An analytical solution is found for self-consistent primordial wormhole with constant radius. Numerical study gives the wormhole solution with increasing throat radius and increasing red-shift function. There is also some indication to the possibility of a topological phase transition.

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