Brane Intersections in the Presence of a Worldvolume Electric Field

TL;DR

This paper investigates the effects of a worldvolume electric field on D1-D3 brane intersections, revealing discrepancies between different descriptions and discovering new time-dependent solutions.

Contribution

It introduces non-static solutions for D3-D1 brane intersections with an electric field, highlighting differences between D1 and D3 descriptions.

Findings

D1 and D3 descriptions do not agree in the presence of an electric field

Found time-dependent solutions generalizing previous static solutions

Identified non-commutative geometric structures in brane intersections

Abstract

The study of brane intersections has provided important insights into a possible non-commutative structure of spacetime geometry. In this paper we focus on the D1$\bot$D3 system. We compare the D1 and D3 descriptions of the interesection and search for non-static solutions of the D3$\bot$D1 funnel equations in the presence of a worldvolume electric field. We find that the D1 and D3 descriptions do not agree. We find time dependent solutions that are a natural generalization of those found without the electric field.