Biased domain walls: faster annihilation, weaker gravitational waves

Abstract

We study the evolution of domain wall networks and their phenomenological implications in a model of a real scalar , where a Z2-symmetry is slightly broken by a potential bias Vbias. It is demonstrated that the latter triggers domain wall annihilation considerably earlier than previously thought. Namely, we observe that the scaling relation tann 1/V2/3bias for the annihilation time tann fits to the simulation data better than a commonly assumed tann 1/Vbias. As a result, the energy density of gravitational waves produced by the network of biased domain walls, for a given tiny Vbias, is suppressed compared to naive expectations. The spectral shape of gravitational waves is similar to that resulting from unbiased domain walls, but with more power in the close-to-maximum ultraviolet part. In the far ultraviolet region, the spectrum of gravitational waves becomes nearly flat; such a plateau has been recognised earlier in the case of unbiased walls. In our investigation we mainly focus on the symmetry breaking potential Vbreaking 3, and argue that no significant modifications of the domain walls evolution take place if one includes higher powers of .

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