Weak Field Collapse in AdS: Introducing a Charge Density
Abstract
We study the effect of a non-vanishing chemical potential on the thermalization time of a strongly coupled large gauge theory in -dimensions, using a specific bottom-up gravity model in asymptotically AdS space. We first construct a perturbative solution to the gravity-equations, which dynamically interpolates between two AdS black hole backgrounds with different temperatures and chemical potentials, in a perturbative expansion of a bulk neutral scalar field. In the dual field theory, this corresponds to a quench dynamics by a marginal operator, where the corresponding coupling serves as the small parameter in which the perturbation is carried out. The evolution of non-local observables, such as the entanglement entropy, suggests that thermalization time decreases with increasing chemical potential. We also comment on the validity of our perturbative analysis.
Keywords
Cite
@article{arxiv.1411.1744,
title = {Weak Field Collapse in AdS: Introducing a Charge Density},
author = {Elena Caceres and Arnab Kundu and Juan F. Pedraza and Di-Lun Yang},
journal= {arXiv preprint arXiv:1411.1744},
year = {2018}
}
Comments
1+48 pages, multiple figures, published in JHEP