Supersymmetric Holomorphic Masses in AdS/CFT with Flavour

Abstract

In type IIB supergravity (SUGRA), in the extremal background of a number Nc of D3-branes we consider a number Nf of probe D7-branes extended along all four D3-brane directions, (x0,x1,x2,x3). Using (x2,x3) to define complex coordinates (z,z) and defining the D7-branes' worldvolume scalars as (y,y), we prove that any holomorphic function y(z) or antiholomorphic function y(z) is a BPS solution of the D7-branes' equations of motion preserving N=(4,0) or (0,4) supersymmetry (SUSY) along (x0,x1), respectively. In the near-horizon geometry, five-dimensional Anti-de Sitter (AdS) spacetime times a five-sphere, the AdS/Conformal Field Theory correspondence states that type IIB SUGRA is holographically dual to four-dimensional N=4 supersymmetric SU(Nc) Yang-Mills theory at large Nc and large 't Hooft coupling, and the Nf D7-branes are dual to Nf N=2 hypermultiplets in the fundamental representation, i.e. flavour fields. Our D7-brane solutions are dual to a position-dependent hypermultiplet mass m that is holomorphic, m(z), or antiholomorphic, m(z). We provide field theory proofs, valid for any Nc, Nf, and 't Hooft coupling, that such m preserve N=(4,0) or (0,4) SUSY along (x0,x1). We also perform holographic calculations with probe D7-branes to show that the theory with such m has zero energy and zero expectation value of the mass operator, and that a zero of m is dual to a superconformal defect described by chiral fermions along (x0,x1).

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