Transport fluctuations in integrable models out of equilibrium

Jason Alexander Myers; Miraculous Joseph Bhaseen; Rosemary Harris; Benjamin Doyon

doi:10.21468/SciPostPhys.8.1.007

Transport fluctuations in integrable models out of equilibrium

Jason Alexander Myers, Miraculous Joseph Bhaseen, Rosemary Harris, Benjamin Doyon

Queen Mary University of London

Research output: Contribution to journal › Article › peer-review

42 Citations (Scopus)

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Abstract

We propose exact results for the full counting statistics, or the scaled cumulant generating function, pertaining to the transfer of arbitrary conserved quantities across an interface in homogeneous integrable models out of equilibrium. We do this by combining insights from generalised hydrodynamics with a theory of large deviations in ballistic transport. The results are applicable to a wide variety of physical systems, including the Lieb-Liniger gas and the Heisenberg chain. We confirm the predictions in non-equilibrium steady states obtained by the partitioning protocol, by comparing with Monte Carlo simulations of this protocol in the classical hard rod gas. We verify numerically that the exact results obey the correct non-equilibrium fluctuation relations with the appropriate initial conditions.

Original language	English
Article number	007
Journal	SciPost Physics
Volume	8
Issue number	1
DOIs	https://doi.org/10.21468/SciPostPhys.8.1.007
Publication status	Published - 20 Jan 2020

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10.21468/SciPostPhys.8.1.007

SciPostHydroLargeDeviation_12Accepted author manuscript, 1.22 MB

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AB - We propose exact results for the full counting statistics, or the scaled cumulant generating function, pertaining to the transfer of arbitrary conserved quantities across an interface in homogeneous integrable models out of equilibrium. We do this by combining insights from generalised hydrodynamics with a theory of large deviations in ballistic transport. The results are applicable to a wide variety of physical systems, including the Lieb-Liniger gas and the Heisenberg chain. We confirm the predictions in non-equilibrium steady states obtained by the partitioning protocol, by comparing with Monte Carlo simulations of this protocol in the classical hard rod gas. We verify numerically that the exact results obey the correct non-equilibrium fluctuation relations with the appropriate initial conditions.

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Transport fluctuations in integrable models out of equilibrium

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