The (amazing) Super-Maze
Abstract
The entropy of the three-charge NS5-F1-P black hole in Type IIA string theory comes from the breaking of F1 strings into little strings, which become independent momentum carriers. In M theory, the little strings correspond to strips of M2 brane that connect pairs of parallel M5 branes separated along the M-theory direction. We show that if one takes into account the backreaction of the M-theory little strings on the M5 branes one obtains a maze-like structure, to which one can add momentum waves. We also show that adding momentum waves to the little strings gives rise to a momentum-carrying brane configuration -- a super-maze -- which locally preserves 16 supercharges. We therefore expect the backreaction of the super-maze to give rise to a new class of horizonless black-hole microstate solutions, which preserve the rotational symmetry of the black-hole horizon and carry of its entropy.
Keywords
Cite
@article{arxiv.2211.14326,
title = {The (amazing) Super-Maze},
author = {Iosif Bena and Shaun D. Hampton and Anthony Houppe and Yixuan Li and Dimitrios Toulikas},
journal= {arXiv preprint arXiv:2211.14326},
year = {2023}
}
Comments
29 pages, 7 figures, LaTeX