Gravity Dual of Superconformal Anomaly
Abstract
The supergravity dual of superconformal anomaly in a four-dimensional supersymmetric gauge theory is investigated. We consider a well-established dual correspondence between the N=1 SU(N+M)× SU(N) supersymmetric gauge theory with two flavors of matter fields in the bifundamental representation of gauge group and the type IIB superstring in the space-time background furnished by the Klebanov-Strassler (K-S) solution. The D-brane configuration for these two dual theories consists of N D3 branes and M fractional D3 branes in the singular space-time composed of a direct product of M4 and a six-dimensional conifold C6 with the base T1,1. The superconformal anomaly originate from fractional branes frozen at the apex of C6. While on the gravity side, the fractional branes deform the AdS5× T1,1 space-time background and partially break local supersymmetry of type IIB supergravity. We find that the deformation on AdS5× T1,1 leads to the spontaneous breaking local symmetries in gauged AdS5 supergravity and consequently a super-Higgs mechanism arises. We thus conclude that the super-Higgs mechanism in gauged supergravity is dual to the superconformal anomaly of supersymmetric gauge theory in terms of gauge/gravity correspondence.
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