AdS/CFT far from equilibrium in a Vaidya setup

Michael Florian Wondrak; Matthias Kaminski; Piero Nicolini; Marcus; Bleicher

arXiv:1711.08835·hep-th·November 29, 2017

AdS/CFT far from equilibrium in a Vaidya setup

Michael Florian Wondrak, Matthias Kaminski, Piero Nicolini, Marcus, Bleicher

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TL;DR

This paper uses the AdS/CFT correspondence to analyze the far-from-equilibrium behavior of a strongly coupled, charged plasma modeled as a quark-gluon plasma, focusing on shear dynamics via a Vaidya black brane setup.

Contribution

It introduces a novel application of Vaidya spacetime to study the non-equilibrium shear behavior of a charged plasma in AdS/CFT.

Findings

01

Characterizes shear behavior during rapid mass infall

02

Models quark-gluon plasma far from equilibrium

03

Provides insights into plasma thermalization processes

Abstract

In this paper we apply the AdS/CFT correspondence to study a strongly coupled plasma far from equilibrium with a strong emphasis on the shear behavior. The plasma serves as a model for an electrically charged quark-gluon plasma. On the gravitational side, we use an ingoing Vaidya black brane spacetime. The highest rate of mass infall is confined to a short time interval.

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