Towards MQGP

Abstract

For the Ouyang embedding we calculate the chemical potential muC due to a U(1) gauge field on the w.v. of Nf D7-branes wrapped around a 4-cycle in a resolved warped deformed conifold with (M)N (fractional)D3-branes of [1], and show the possible thermodynamical stability up to linear order in the embedding parameter. In the spirit of [2] we obtain the local type IIA mirror using SYZ mirror symmetry near (theta1,2,psi)=(<theta1,2>,0,2pi,,4pi) and then oxidize the same to M theory. We take two limits of this uplift:(i)gs,gsNf,gsM2/N,gs2M Nf<<1,gsM,gsN>>1 similar to [1] effected by M eps-3d/2, N eps-19d,gs epsnd,d>0 and eps<=O(0.01);(ii)the `MQGP limit' gsM2/N<<1, gsN>>1 for finite gs,M, effected by: gs eps, M eps-3d/2,N eps-39d,d>0, eps<~1). The second limit is more suited for the study of QGP (See [3]) and can only be addressed in M theory. The uplift gives a black M3-brane solution whose near-horizon geometry near theta1,2=0,pi-branches, preserves 1/8 SUSY. We obtain eta/s=1/4pi for the uplift and the diffusion constant for types IIB/IIA backgrounds comes out to be ~1/T, for both limits. The D=11 SUGRA action up to O(R4,|G4|2) is expected to receive dominant contributions near <theta1,2>=0,pi due to poles. Introducing a small-angle cut-off c and using the <theta1,2>=c,(pi-c)-local uplift the specific heat from the IR-finite part of the action (c-independent) turns out to be positive indicative of the thermodynamical stability of the uplift. An ALD-gravity-type interpretation can be given to the counter-terms for(i). Its verified that the black M3-brane entropy S rh3 from M-theoretic thermodynamical methods and the horizon areas of types IIB/IIA/M3-brane solutions.