Towards Nonperturbation Theory of Emergent Gravity

Abstract

We investigate an emergent gravity in (4+1) dimensions underlying a geometric torsion H3 in 1.5 order formulation. We show that an emergent pair-symmetric 4th order curvature tensor underlying a NS field theory governs a torsion free geometry and is identified as the Riemann type tensor. Interestingly a pair anti-symmetric 4th order tensor is shown to incorporate a dynamical correction underlying a H3 gauge potential and is identified with a non-perturbative correction. The non-perturbative term in the emergent action is shown to be described by a U(1) gauge invariant F4 in a second order theory underlying an onshell H3 in a first order. A complete emergent theory is elegantly described with an axion, and hence a quintessence, coupling to the Riemann type geometries. The curvatures are appropriately worked out to obtain a 12D emergent F theory. Further investigation reveals that a pair of (M M)10-brane are created across an event horizon. We obtain an emergent M theory which in a decoupling limit identifies with the bosonic sector of N=1 SUGRA in 11D.