English

Stringy Black Hole Interiors

High Energy Physics - Theory 2020-01-08 v2

Abstract

It is well known that non-perturbative α\alpha' corrections to the SL(2,\IR)/U(1)SL(2,\IR)/U(1) cigar geometry are described via a condensation of a Sine-Liouville operator that schematically can be written as W++WW^{+}+W^{-}, where W±W^{\pm} describe a string with winding number ±1\pm 1. This condensation leads to interesting effects in the cigar geometry that take place already at the classical level in string theory. Condensation of the analytically continued Sine-Liouville operator in the Lorentzian SL(2,\IR)/U(1)SL(2,\IR)/U(1) black hole is problematic. Here, we propose that in the black hole case, the non-perturbative α\alpha' corrections are described in terms of an operator that can be viewed as the analytic continuation of the fusion of W+W^+ and WW^-. We show that this operator does not suffer from the same problem as the analytically continued Sine-Liouville operator and argue that it describes folded strings that fill the entire black hole and, in a sense, replace the black hole interior. We estimate the folded strings radiation, and show that they radiate at the Hawking temperature.

Keywords

Cite

@article{arxiv.1908.05000,
  title  = {Stringy Black Hole Interiors},
  author = {Amit Giveon and Nissan Itzhaki},
  journal= {arXiv preprint arXiv:1908.05000},
  year   = {2020}
}
R2 v1 2026-06-23T10:47:09.102Z