We explore the statistical behaviour of the discrete nonlinear Schr?dinger equation as a test bed for the observation of negative-temperature (i.e. above infinite temperature) states in Bose?Einstein condensates in optical lattices and arrays of optical waveguides. By monitoring the microcanonical temperature, we show that there exists a parameter region where the system evolves towards a state characterized by a finite density of discrete breathers and a negative temperature. Such a state persists over very long (astronomical) times since the convergence to equilibrium becomes increasingly slower as a consequence of a coarsening process. We also discuss two possible mechanisms for the generation of negative-temperature states in experimental setups, namely, the introduction of boundary dissipations and the free expansion of wavepackets initially in equilibrium at a positive temperature.
Discrete breathers and negative-temperature states / S Iubini;R Franzosi;R Livi;G-L Oppo;A Politi. - In: NEW JOURNAL OF PHYSICS. - ISSN 1367-2630. - STAMPA. - 15:(2013), pp. 023032/1-023032/13. [10.1088/1367-2630/15/2/023032]
Discrete breathers and negative-temperature states
LIVI, ROBERTO;
2013
Abstract
We explore the statistical behaviour of the discrete nonlinear Schr?dinger equation as a test bed for the observation of negative-temperature (i.e. above infinite temperature) states in Bose?Einstein condensates in optical lattices and arrays of optical waveguides. By monitoring the microcanonical temperature, we show that there exists a parameter region where the system evolves towards a state characterized by a finite density of discrete breathers and a negative temperature. Such a state persists over very long (astronomical) times since the convergence to equilibrium becomes increasingly slower as a consequence of a coarsening process. We also discuss two possible mechanisms for the generation of negative-temperature states in experimental setups, namely, the introduction of boundary dissipations and the free expansion of wavepackets initially in equilibrium at a positive temperature.
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