2019
DOI: 10.1007/s00023-019-00860-w
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Fluctuations in Ballistic Transport from Euler Hydrodynamics

Abstract: We propose a general formalism, within large deviation theory, giving access to the exact statistics of fluctuations of ballistically transported conserved quantities in homogeneous, stationary states. The formalism is expected to apply to any system with an Euler hydrodynamic description, classical or quantum, integrable or not, in or out of equilibrium. We express the exact scaled cumulant generating function (or full counting statistics) for any (quasi-)local conserved quantity in terms of the flux Jacobian… Show more

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Cited by 64 publications
(142 citation statements)
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References 122 publications
(267 reference statements)
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“…We confirm our conjecture by a non-trivial matching with the result of [23] up to the fourth cumulant of the same current. We first remind how this quantity was derived in [14] and [3,23].…”
Section: Cumulants Of the Total Transport In Ghdsupporting
confidence: 87%
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“…We confirm our conjecture by a non-trivial matching with the result of [23] up to the fourth cumulant of the same current. We first remind how this quantity was derived in [14] and [3,23].…”
Section: Cumulants Of the Total Transport In Ghdsupporting
confidence: 87%
“…We conjecture that they are given by the same diagrams presented in the previous section, with only two modifications: the operator at the root is the energy derivative E ′ (instead of the momentum derivative) and each internal vertex θ of odd degree carries an extra sign of the effective velocity sign[v eff (θ)]. We confirm our conjecture by a non-trivial matching with the result of [23] up to the fourth cumulant of the same current. We first remind how this quantity was derived in [14] and [3,23].…”
Section: Cumulants Of the Total Transport In Ghdsupporting
confidence: 84%
“…We believe that our approach provides useful insights and essential prerequisites for the solution of the interacting case, and at the very least can serve for benchmarking and comparison. We remark that the Levitov-Lesovik type of asymptotic was already implemented in the generalized hydrodynamic approach to interacting systems [24]. Another interesting question our research can be related to is the exploration of dynamical defects (quantum impurities) and moving defects [84][85][86][87].…”
Section: Discussionmentioning
confidence: 96%
“…We see that only the last terms contributes to the current, resulting in Eqs. (24), (25). For zero temperature J hydro and J bound from Eq.…”
Section: Current and Shot Noisementioning
confidence: 99%
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