We investigate the dynamics of a small long-range interacting system, in contact with a large long-range thermal bath. Our analysis reveals the existence of striking anomalies in the energy flux between the bath and the system. In particular, we find that the evolution of the system is not influenced by the kinetic temperature of the bath, as opposed to what happens for short-range collisional systems. As a consequence, the system may get hotter also when its initial temperature is larger than the bath temperature. This observation is explained quantitatively in the framework of the collisionless Vlasov description of toy models with long-range interactions and shown to be valid whenever the Vlasov picture applies, from cosmology to plasma physics..

Absence of thermalization for systems with long-range interactions coupled to a thermal bath / Pierre de Buyl; Giovanni De Ninno; Duccio Fanelli; Cesare Nardini; Aurelio Patelli; Francesco Piazza; and Yoshiyuki Y. Yamaguchi. - In: PHYSICAL REVIEW. E, STATISTICAL, NONLINEAR AND SOFT MATTER PHYSICS. - ISSN 1550-2376. - STAMPA. - 87:(2013), pp. 042110-1-042110-6.

Absence of thermalization for systems with long-range interactions coupled to a thermal bath

FANELLI, DUCCIO;Francesco Piazza;
2013

Abstract

We investigate the dynamics of a small long-range interacting system, in contact with a large long-range thermal bath. Our analysis reveals the existence of striking anomalies in the energy flux between the bath and the system. In particular, we find that the evolution of the system is not influenced by the kinetic temperature of the bath, as opposed to what happens for short-range collisional systems. As a consequence, the system may get hotter also when its initial temperature is larger than the bath temperature. This observation is explained quantitatively in the framework of the collisionless Vlasov description of toy models with long-range interactions and shown to be valid whenever the Vlasov picture applies, from cosmology to plasma physics..
2013
87
042110-1
042110-6
Pierre de Buyl; Giovanni De Ninno; Duccio Fanelli; Cesare Nardini; Aurelio Patelli; Francesco Piazza; and Yoshiyuki Y. Yamaguchi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/864545
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