Perturbative 3-charge microstate geometries in six dimensions

TL;DR

This paper constructs supersymmetric microstate geometries for the D1-D5-P system as perturbations around a known solution, advancing the understanding of superstratum configurations in six-dimensional supergravity.

Contribution

It introduces a new set of perturbative, supersymmetric microstate solutions with v-dependent bases, moving toward explicit superstratum construction.

Findings

Solutions are perturbations around maximally rotating D1-D5 geometry.

Solutions depend on the S^1 coordinate, showing v-dependence.

Progress toward explicit superstratum solutions.

Abstract

We construct a set of supersymmetric geometries that represent regular microstates of the D1-D5-P 3-charge system, using the solution generating technique of hep-th/0311092. These solutions are constructed as perturbations around the maximally rotating D1-D5 solution at the linear order, and depend on the coordinate of S^1 on which the D1- and D5-branes are wrapped. In the framework of six-dimensional supergravity developed by Gutowski, Martelli and Reall [hep-th/0306235], these solutions have a 4-dimensional base that depend on the S^1 coordinate v. The v-dependent base is expected of the superstratum solutions which are parametrized by arbitrary surfaces, and these solutions give a modest step toward their explicit construction.