On M-Theory Dual of Large-N Thermal QCD-Like Theories up to O(R4) and G-Structure Classification of Underlying Non-Supersymmetric Geometries

Abstract

Construction of a top-down holographic dual of thermal QCD-like theories (equivalence class of theories which are UV-conformal, IR-confining and have fundamental quarks) at intermediate 't Hooft coupling and the G-structure (torsion classes) classification of the underlying geometries (in the Infra Red (IR)/non-conformal sector in particular) of the non-supersymmetric string/ M-theory duals, have been missing in the literature. We take the first important steps in this direction by studying the M theory dual of large-N thermal QCD-like theories at intermediate gauge and 't Hooft couplings and obtaining the O(lp6) corrections arising from the O(R4) terms to the "MQGP" background ( M-theory dual of large-N thermal QCD-like theories at intermediate gauge/string coupling, but large 't Hooft coupling) of MQGP. The main Physics lesson learnt is that there is a competition between non-conformal IR enhancement and Planckian and large-N suppression and going to orders beyond the O(lp6) is necessitated if the IR enhancement wins out. The main lesson learnt in Math is in the context of the differential geometry (G-structure classification) of the internal manifolds relevant to the string/ M-theory duals of large-N thermal QCD-like theories, wherein we obtain for the first time inclusive of the O(R4) corrections in the Infra-Red (IR), the SU(3)-structure torsion classes of the type IIA mirror of metrics (making contact en route with Siegel theta functions related to appropriate hyperelliptic curves, as well as the Kiepert's algorithm of solving quintics), and the G2/SU(4)/Spin(7)-structure torsion classes of the seven- and eight-folds associated with its M theory uplift.