Axion-Dilaton Quantum String Cosmology for Flux Compactification and its   Symmetry Breaking

Eiji Konishi

arXiv:0710.1228·hep-th·February 16, 2012·4 cites

Axion-Dilaton Quantum String Cosmology for Flux Compactification and its Symmetry Breaking

Eiji Konishi

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TL;DR

This paper solves the Wheeler-De Witt equation in type IIB quantum string cosmology with flux compactification, exploring how H-fluxes induce spontaneous S-duality symmetry breaking.

Contribution

It provides an analytical solution to the Wheeler-De Witt equation in a flux compactified string cosmology model and analyzes the symmetry breaking mechanism.

Findings

01

WKB approximation yields solutions to the quantum cosmology model.

02

H-fluxes cause spontaneous breaking of S-duality symmetry.

03

The model demonstrates flux effects on the early universe's quantum state.

Abstract

The Wheeler-De Witt equation of type IIB quantum string cosmology compactified with constant internal H-fluxes on a 6-torus, whose volume modulus is frozen, is solved under the WKB approximation. The spontaneous symmetry breaking of the S-duality group by H-fluxes is also examined.

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Taxonomy

TopicsBlack Holes and Theoretical Physics · Cosmology and Gravitation Theories · Particle physics theoretical and experimental studies