6d-5d-4d reduction of BPS attractors in flat gauged supergravities

TL;DR

This paper explores how BPS and non-BPS attractors in supergravity theories relate across different dimensions through KK and SS compactifications, revealing dualities and connections to 2D SCFTs from string theory.

Contribution

It introduces a novel framework linking higher-dimensional BPS attractors to lower-dimensional non-BPS solutions via compactifications, uncovering dualities and the structure of associated SCFTs.

Findings

Established a duality between electric and magnetic gaugings.

Demonstrated the flip of the quartic invariant I_4 to -I_4.

Connected 6D black strings to 4D black holes via compactification routes.

Abstract

Via a series of Kaluza-Klein (KK) and Scherk-Schwarz (SS) compactifications we relate BPS attractors and their complete (in general non-BPS) flows to a Minkowski vacuum in gauged supergravities with vanishing scalar potential in 4, 5, and 6 dimensions. This way we can look at a class of extremal non-BPS black holes and strings from IIB string theory viewpoint, keeping 4 supercharges on the horizon. Our results imply the existence of a dual 2d N = (0,2) superconformal field theory (SCFT) that originates from a parent N=(4,4) theory living on a D1-D5 system. This is achieved starting from the BPS black string in 6d with an AdS_3xS^3 attractor and taking two different routes to arrive at a 1/2 BPS AdS_2xS^2 attractor of a non-BPS black hole in 4d N=2 flat gauged supergravity. The two inequivalent routes interchange the order of KK reduction on AdS_3 and SS reduction on S^3. We also find the commutator between the two operations after performing a duality transformation: on the level of the theory the result is the exchange of electric with magnetic gaugings; on the level of the solution we find a flip of the quartic invariant I_4 to -I_4.