Holographic duals of N=1 quivers in 5d and their nonrelativistic limits
Abstract
We explore nonrelativistic limits of N=1 quiver gauge theories in 5d. The stringy counterpart of these SCFTs is characterised by torsional string Newton-Cartan (TSNC) sigma models those are defined over non-Lorentzian manifolds. We further show that under transverse T-duality, these TSNC sigma models are mapped into another new class of nonrelativistic sigma models those are defined over a T-dual TSNC background. Considering nonrelativistic limits of various field theory observables in a holographic set up, we further estimate corresponding entities in the TSNC limit of N=1 quivers. We carry out a parallel analysis on holomorphic functions and the associated pole structures in the nonrelativistic limit of ( p ,q ) five brane webs. In particular, we investigate the generic structure of various loop operators in a nonrelativistic set up and explore their properties under S-duality. Finally, we comment on the large c limit of RR fields and discuss the associated S-duality transformation rules in the nonrelativistic limit of N=1 quivers.
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