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Energy transport in an integrable parafermionic chain via generalized hydrodynamics

Leonardo MazzaDépartement de Physique, École Normale Supérieure/PSL Research University, CNRS, 24 rue Lhomond, F-75005 Paris, FranceJacopo VitiECT & Instituto Internacional de Física, UFRN, Campos Universitário, Lagoa Nova 59078-970 Natal, BrazilMatteo CarregaNEST, Istituto Nanoscienze-CNR and Scuola Normale Superiore, Piazza San Silvestro 12, 56127 Pisa, ItalyDavide RossiniDipartimento di Fisica, Università di Pisa and INFN, Largo Pontecorvo 3, I-56127 Pisa, ItalyAndrea De LucaThe Rudolf Peierls Centre for Theoretical Physics, Oxford University, Oxford, OX1 3NP, United Kingdom
2018en
ABI

Аннотация

We study energy transport in the integrable ${\mathbb{Z}}_{3}$ parafermionic chain using the partitioning protocol. By exploiting the Bethe-ansatz solution for the thermodynamics of the system, we develop a generalized hydrodynamic description of the nonequilibrium steady states, which we benchmark using numerical simulations based on matrix product states. The model features a low-energy conformal limit with central charge $c=\frac{4}{5}$, which affects the low-temperature energy current, as we explicitly show. Moreover, we exploit that, for energies close to the maximally excited state, the system is also critical and described by a conformal field theory with $c=1$. By considering the two halves prepared at two temperatures both low in value but opposite in sign, we are able to investigate in an exact and controlled way the junction between two conformal field theories with different central charges. Notwithstanding the absence of global conformal invariance, we find results that approximate to a high degree those of out-of-equilibrium conformal field theories. Our study extends the generalized hydrodynamics to a framework where it can be profitably used for exploring new physical phenomena.

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Цитирований: 2Использованных источников: 0