Quantum Scattering in Two Black Hole Moduli Space

Kenji Sakamoto; Kiyoshi Shiraishi (Yamaguchi University)

arXiv:gr-qc/0302113·gr-qc·November 10, 2009

Quantum Scattering in Two Black Hole Moduli Space

Kenji Sakamoto, Kiyoshi Shiraishi (Yamaguchi University)

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TL;DR

This paper investigates quantum scattering in the moduli space of two charged dilaton black holes, revealing how geometry influences quantum effects and identifying resonance states in specific configurations.

Contribution

It provides a detailed analysis of quantum scattering in black hole moduli spaces across dimensions and dilaton couplings, highlighting the emergence of resonance states.

Findings

01

Resonance states are found in certain moduli space configurations.

02

The geometry of the moduli space significantly affects quantum scattering behavior.

03

Quantum effects vary with dimension and dilaton coupling.

Abstract

We discuss the quantum scattering process in the moduli space consisting of two maximally charged dilaton black holes. The black hole moduli space geometry has different structures for arbitrary dimensions and various values of dilaton coupling. We study the quantum effects of the different moduli space geometries with scattering process. Then, it is found that there is a resonance state on certain moduli spaces.

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