String Scale Thermal Anti-de Sitter Spaces
Abstract
We study finite temperature string scale backgrounds. One background is in which the anti-de Sitter space-time and the circle are at the radius . Using path integral techniques, we show that the bulk spectrum includes a continuum of states as well as Ramond-Ramond ground states that agree with those of the symmetric orbifold of the two-torus after second quantization. We also examine the one-loop free energy of the background at curvature radius . In the space-time NSNS sector, the string theory spontaneously breaks conformal symmetry as well as R-charge conjugation symmetry. We prove that the minimum in the boundary energy is reached for a singly wound string. In the RR sector, we classify the infinite set of ground states with fractional R-charges. Moreover, we remark on the behaviour of critical temperatures as the curvature scale becomes smaller than the string scale. In an appendix, we derive the Hawking-Page transition in string theory by integrating a world sheet one-point function.
Cite
@article{arxiv.2103.01427,
title = {String Scale Thermal Anti-de Sitter Spaces},
author = {Sujay K. Ashok and Jan Troost},
journal= {arXiv preprint arXiv:2103.01427},
year = {2021}
}
Comments
20 pages