Viscoelastic Dynamics in Holography
Abstract
We study the mechanical response under time-dependent sources of a simple class of holographic models that exhibit viscoelastic features. The ratio of viscosity over elastic modulus defines an intrinsic relaxation time scale -- the so-called Maxwell relaxation time , which has been identified traditionally with the relaxation time scale. We compute explicitly the relaxation time in our examples and that it differs from . At high temperatures over-estimates the actual relaxation time, although not by much and moreover it still captures reasonably well the temperature behaviour. At sufficiently low temperatures the situation is reversed: underestimates the actual relaxation time, in some cases quite drastically. Moreover, when under-estimates the real-time response exhibits an overshoot phenomenon before relaxation. We comment on the limit, where the relaxation is power-law because our models exhibit criticality.
Keywords
Cite
@article{arxiv.1903.02859,
title = {Viscoelastic Dynamics in Holography},
author = {Tomas Andrade and Matteo Baggioli and Oriol Pujolas},
journal= {arXiv preprint arXiv:1903.02859},
year = {2019}
}
Comments
matching the published version in PRD