McTEQ ( M chiral perturbation theory-compatible deconfinement Temperature and Entanglement Entropy up to terms Quartic in curvature) and FM ( Flavor Memory)

Abstract

A holographic computation of Tc at intermediate\ coupling from M-theory dual of thermal QCD-like theories, has been missing in the literature. Filling this gap, we demonstrate a novel UV-IR mixing, (conjecture and provide evidence for) a non-renormalization beyond 1 loop of M- chiral perturbation theory arXiv:2011.04660[hep-th]-compatible deconfinement Temperature, and show equivalence with an Entanglement (as well as Wald) entropy arXiv:0709.2140[hep-th] computation, up to terms Quartic in curvature. We demonstrate a Flavor- Memory (FM) effect in the M-theory uplifts of the gravity duals, wherein the no-braner M-theory uplift retains the "memory" of the flavor D7-branes of the parent type IIB dual in the sense that a specific combination of the aforementioned quartic corrections to the metric components precisely along the compact part of the non-compact four-cycle "wrapped" by the flavor D7-branes, is what determines, e.g., the Einstein-Hilbert action at O(R4). The same linear combination of O(R4) metric corrections, upon matching the phenomenological value of the coupling constant of one of the SU(3) NLO ChPT Lagrangian, is required to have a definite sign. Interestingly, in the decompactification limit of the spatial circle, we derive this, and obtain the values of the relevant O(R4) metric corrections. Further, equivalence with Wald entropy for the black hole at O(R4) imposes a linear constraint on the same linear combination of metric corrections. Remarkably, when evaluating Tc from an entanglement entropy computation in the thermal gravity dual, due to a delicate cancelation between the O(R4) corrections from a subset of the abovementioned metric components, one sees that there are no corrections to Tc at quartic order supporting the conjecture referred to above.