A Lagrangian for self-dual strings

Abstract

We propose a Lagrangian for the low-energy theory that resides at the (1+1)-dimensional intersection of N semi-infinite M2-branes ending orthogonally on M M5-branes in R1,2 × C4/ Zk (for arbitrary positive integers N,M,k). We formulate this theory as a 2d boundary theory with explicit N=(1,1) supersymmetry that contains two superfields in the bi-fundamental representation of U(N)× U(M) interacting with the (2+1)-dimensional U(N)k× U(N)-k ABJM Chern-Simons-matter theory in the bulk. We postulate that the boundary theory exhibits in the deep infrared supersymmetry enhancement to N=(4,2), or N=(4,4) depending on the value of k. Arguments in favor of the proposal follow from the study of the open string theory of a U-dual type IIB Hanany-Witten setup. To formulate the bulk-boundary interactions special care is taken to incorporate all the expected boundary effects on gauge symmetry, supersymmetry, and other global symmetries.