Impact of string and monopole-type junctions on domain wall dynamics: implications for dark energy

Abstract

We investigate the potential role of string and monopole-type junctions in the frustration of domain wall networks using a velocity-dependent one-scale model for the characteristic velocity, v, and the characteristic length, L, of the network. We show that, except for very special network configurations, v2 (HL)2 (σ + μ)/m where H is the Hubble parameter and σ, μ and m are the average density of domain walls, strings and monopole-type junctions. We further show that if domain walls are to provide a significant contribution to the dark energy without generating exceedingly large CMB temperature fluctuations then, at the present time, the network must have a characteristic length L0 10 σ 0-2/3 kpc and a characteristic velocity v0 10-5 σ 0-2/3 where σ 0=σ 0/c 0 and c is the critical density. In order to satisfy these constraints with σ 0 1, m 0 would have to be at least 10 orders of magnitude larger than σ 0, which would be in complete disagreement with observations. This result provides very strong additional support for the conjecture that no natural frustration mechanism, which could lead to a significant contribution of domain walls to the dark energy budget, exists.