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Coherent energy transport in classical nonlinear oscillators: an analogy with the Josephson effect

The standard approach to non-equilibrium thermodynamics describes transport in terms of generalised forces and coupled currents, a typical example being the Fourier law that relates temperature gradient to the heat flux. Here we demonstrate the presence of persistent energy currents in a lattice of classical nonlinear oscillators with uniform temperature and chemical potential. In strong analogy with the well known Josephson effect, the currents are generated only by the phase differences between the oscillators. The phases play the role of additional thermodynamical forces, that drive the system out of equilibrium. Our results apply to a large class of oscillators and indicate novel ways to practically control the propagation of coupled currents and rectification effects in many different devices. They also suggest a simple, macroscopic setup for studying a phenomenon which hitherto have only been observed in microscopic, quantum-mechanical systems.

preprint2015arXivOpen access
Simone BorlenghiStefano IubiniStefano LepriLars BergqvistAnna DelinJonas Frannson
cond-mat.stat-mechcond-mat.mes-hall
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Simone BorlenghiStefano IubiniStefano LepriLars BergqvistAnna DelinJonas Frannson

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