Evolution of a global string network in a matter dominated universe

Abstract

We evolve the network of global strings in the matter-dominated universe by means of numerical simulations. The existence of the scaling solution is confirmed as in the radiation-dominated universe but the scaling parameter takes a slightly smaller value, 0.6 0.1, which is defined as = s t2 / μ with s the energy density of global strings and μ the string tension per unit length. The change of from the radiation to the matter-dominated universe is consistent with that obtained by Albrecht and Turok by use of the one-scale model. We also study the loop distribution function and find that it can be well fitted with that predicted by the one-scale model, where the number density nl(t) of the loop with the length l is given by nl(t) = /[t2 (l + t)2] with 0.040 and 0.48. Thus, the evolution of the global string network in the matter-dominated universe can be well described by the one-scale model as in the radiation-dominated universe.

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