Speaker
Prof.
L.C.R. Wijewardhana
(University of Cincinnati)
Description
Black branes are studied in Einstein-Gauss-Bonnet (EGB) gravity. Evaporation drives black branes towards one of two singularities depending on the sign of $\alpha$, the Gauss-Bonnet coupling. For positive $\alpha$ and sufficiently large ratio $\sqrt{\alpha}/L$, where $L/2\pi$ is the radius of compactification, black branes avoid the Gregory-Laflamme (GL) instability before reaching a critical state. No black branes with the radius of horizon smaller than the critical value can exist. Approaching the critical state branes have a nonzero Hawking temperature. For negative $\alpha$ all black branes encounter the GL instability. No black branes may exist outside of the interval of the critical values, $0\leq\beta<3$, where $\beta=1- 8\alpha/r_h^2$ and $r_h$ is the radius of horizon of the black brane. The first order phase transition line of GL transitions ends in a second order phase transition point at $\beta=0$.
Summary
arXiv:0810.0525v2 [hep-th]
To appear in Phys.Rev.D.
Authors P.Suranyi, C.Vaz and L.C.R.Wijewardhana
Author
Prof.
L.C.R. Wijewardhana
(University of Cincinnati)
Co-authors
Prof.
Cenalo Vaz
(University of Cincinnati)
Prof.
Peter Suranyi
(University of Cincinnati)