Decays of Four Intersecting Fluxbranes

TL;DR

This paper studies the decay processes of four intersecting fluxbranes derived from higher-dimensional Kerr blackholes with maximum angular momentum, analyzing their decay channels and calculating decay rates.

Contribution

It introduces a model for intersecting fluxbrane decays from Kerr blackholes with four angular momenta and explores their decay channels and rates.

Findings

Intersecting fluxbranes decay into lower-dimensional spherical branes.

Decay channels are more complex than single fluxbrane cases.

Decay rates are computed via Euclidean action in various parameter limits.

Abstract

We consider decays of four intersecting fluxbranes which are obtained by considering a higher dimensional Kerr blackhole with four angular momentum parameters, which is the maximum number of angular momentum parameters in string/M-theory. As a result of the intersection, we get lower dimensional fluxbranes. Since generic magnetic fields break all supersymmetries, the resulting fluxbranes are unstable and will decay. Just as a single fluxbrane decays into the nucleation of spherical D6-branes; the intersecting ones decay into the nucleation of lower dimensional spherical branes. Contrary to a single fluxbrane case, the decay of four intersecting fluxbranes has additional decay channels. We also calculate the corresponding Euclidean action to obtain the decay rates. Although the action cannot be explicitly and simply written in terms of the magnetic parameters, we can extract some interesting results by taking various limits of the magnetic parameters.