Holographic Screening Length in a Hot Plasma of Two Sphere

Abstract

We study the screening length of a quark-antiquark pair moving in a hot plasma living in two sphere S2 manifold using AdS/CFT correspondence where the background metric is four dimensional Schwarzschild-AdS black hole. The geodesic solution of the string ends at the boundary is given by a stationary motion in the equatorial plane as such the separation length L of quark-antiquark pair is parallel to the angular velocity ω. The screening length and the bound energy are computed numerically using Mathematica. We find that the plots are bounded from below by some functions related to the momentum transfer Pc of the drag force configuration. We compare the result by computing the screening length in the quark-antiquark reference frame where the gravity dual are "Boost-AdS" and Kerr-AdS black holes. Finding relations of the parameters of both black holes, we argue that the relation between mass parameters MSch of the Schwarzschild-AdS black hole and MKerr of the Kerr-AdS black hole in high temperature is given by MKerr=MSch(1-a2l2)3/2, where a is the angular momentum parameter.