Collision of Domain Walls and Reheating of the Brane Universe
Abstract
We study a particle production at the collision of two domain walls in 5-dimensional Minkowski spacetime. This may provide the reheating mechanism of an ekpyrotic (or cyclic) brane universe, in which two BPS branes collide and evolve into a hot big bang universe. We evaluate a production rate of particles confined to the domain wall. The energy density of created particles is given as ≈ 20 g4 Nb ~mη4 where g is a coupling constant of particles to a domain-wall scalar field, Nb is the number of bounces at the collision and mη is a fundamental mass scale of the domain wall. It does not depend on the width d of the domain wall, although the typical energy scale of created particles is given by ω 1/d. The reheating temperature is evaluated as T R≈ 0.88 ~ g ~ Nb1/4. In order to have the baryogenesis at the electro-weak energy scale, the fundamental mass scale is constrained as mη 1.1× 107 GeV for g 10-5.
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