Wilson loop in AdS3 × S3 × T4 from quantum M2 brane

Abstract

Type IIB string theory on AdS3 × S3× T4 with RR flux as the near-horizon limit of the D1-D5 solution is expected to be dual to a (4,4) supersymmetric 2d CFT parametrized by the integers Q1,Q5 and other moduli. It is related by T-duality to type IIA string theory in the near-horizon limit of the D2-D4 solution which admits an uplift to the 11d AdS3 × S3× T5 background which is the near-horizon limit of the M2-M5 solution. We point out that this relation allows one to use the quantum M2-brane description to probe ``non-planar'' corrections in the dual 2d CFT, in close analogy with the ABJM theory case (described by M-theory on AdS4 × S7/Zk). We consider an analog of a supersymmetric Wilson loop (line defect) expectation value represented by type IIA string partition function expanded around AdS2⊂ AdS3 minimal surface. Its M-theory analog is the M2 brane partition function expanded near AdS2× S1. We compute the 1-loop contribution Z1 to the M2 brane partition function and find that in contrast to the ABJM case in arXiv:2303.15207 (where Z1= (22π k)-1 = k 4 π +π 6k +... contains an infinite series of higher genera string corrections, k-1 gs T), here it is given solely by the leading string-theory contribution Z1= κ 2π where κ Q5 plays a role analogous to k. We also discuss a generalization to the mixed flux case which is straightforward from the 11d perspective.