Circular String-Instabilities in Curved Spacetime

Abstract

We investigate the connection between curved spacetime and the emergence of string-instabilities, following the approach developed by Loust\'o and S\'anchez for de Sitter and black hole spacetimes. We analyse the linearised equations determining the comoving physical (transverse) perturbations on circular strings embedded in Schwarzschild, Reissner-Nordstr\"om and de Sitter backgrounds. In all 3 cases we find that the "radial" perturbations grow infinitely for r→ 0 (ring-collapse), while the "angular" perturbations are bounded in this limit. For r→∞ we find that the perturbations in both physical directions (perpendicular to the string world-sheet in 4 dimensions) blow up in the case of de Sitter space. This confirms results recently obtained by Loust\'o and S\'anchez who considered perturbations around the string center of mass.