Nonlinear conductivity and the ringdown of currents in metallic holography
Nonlinear conductivity and the ringdown of currents in metallic holography
We study the electric and heat current response resulting from an electric field quench in a holographic model of momentum relaxation at nonzero charge density. After turning the electric field off, currents return to equilibrium as governed by the vector quasi-normal modes of the dual black brane, whose spectrum depends qualitatively on a parameter controlling the strength of inhomogeneity. We explore the dynamical phase diagram as a function of this parameter, showing that signatures of incoherent transport become identifiable as an oscillatory ringdown of the heat current. We also study nonlinear conductivity by holding the electric field constant. For small electric fields a balance is reached between the driving electric field and the momentum sink -- a steady state described by DC linear response. For large electric fields Joule heating becomes important and the black branes exhibit significant time dependence. In a regime where the rate of temperature increase is small, the nonlinear electrical conductivity is well approximated by the DC linear response calculation at an appropriate effective temperature.
Holography, Gravity, holography and condensed matter physics (AdS/CMT)
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9
3 October 2016
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9
Withers, Benjamin
(2016)
Nonlinear conductivity and the ringdown of currents in metallic holography.
Journal of High Energy Physics, 2016 (10).
(doi:10.1007/JHEP10(2016)008).
Abstract
We study the electric and heat current response resulting from an electric field quench in a holographic model of momentum relaxation at nonzero charge density. After turning the electric field off, currents return to equilibrium as governed by the vector quasi-normal modes of the dual black brane, whose spectrum depends qualitatively on a parameter controlling the strength of inhomogeneity. We explore the dynamical phase diagram as a function of this parameter, showing that signatures of incoherent transport become identifiable as an oscillatory ringdown of the heat current. We also study nonlinear conductivity by holding the electric field constant. For small electric fields a balance is reached between the driving electric field and the momentum sink -- a steady state described by DC linear response. For large electric fields Joule heating becomes important and the black branes exhibit significant time dependence. In a regime where the rate of temperature increase is small, the nonlinear electrical conductivity is well approximated by the DC linear response calculation at an appropriate effective temperature.
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Accepted/In Press date: 10 June 2016
Published date: 3 October 2016
Keywords:
Holography, Gravity, holography and condensed matter physics (AdS/CMT)
Identifiers
Local EPrints ID: 435827
URI: http://eprints.soton.ac.uk/id/eprint/435827
ISSN: 1029-8479
PURE UUID: 88078269-eea2-402d-98c5-27b41c3dbc9d
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Date deposited: 21 Nov 2019 17:30
Last modified: 17 Mar 2024 02:27
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