Phase Transitions of Quintessential AdS Black Holes in M-theory/Superstring Inspired Models

Abstract

We study d-dimensional AdS black holes surrounded by Dark Energy (DE), embedded in D-dimensional M-theory/superstring inspired models having AdSd × Sd+k space-time with D=2d+k. We focus on the thermodynamic Hawking-Page phase transitions of quintessential DE black hole solutions, whose microscopical origin is linked to N coincident (d-2)-branes supposed to live in such (2d+k)-dimensional models. Interpreting the cosmological constant as the number of colors Nd-12, we calculate various thermodynamical quantities in terms of brane number, entropy and DE contributions. Computing the chemical potential conjugated to the number of colors in the absence of DE, we show that a generic black hole is more stable for a larger number of branes for lower dimensions d.In the presence of DE, we find that the DE state parameter ωq should take particular values, for (D,d,k) models, providing a non trivial phase transition structure.