Mass gap in the critical gravitational collapse of a kink

Abstract

We study the gravitational collapse of a kink within spherical symmetry and the characteristic formulation of General Relativity. We explore some expected but elusive gravitational collapse issues which have not been studied before in detail, finding new features. The numerical one-parametric solution and the structure of the spacetime are calculated using finite differences, Galerkin collocation techniques, and some scripting for automated grid coverage. We study the threshold of black hole formation and confirm a mass gap in the phase transition. In the supercritical case we find a mass scaling power law MBH=M*BH+K[λ-λ*]2γ+f(K[λ-λ*]2γ), with γ≈ 0.37 independent of the initial data for the cases considered, and M*BH, K and λ* each depending on the initial datum. The spacetime has a self-similar structure with a period of ≈ 3.4. In the subcritical case the Bondi mass at null infinity decays in cascade with /2 interval as expected.