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Paper detail

Kinetic and thermodynamic temperatures in quantum systems

In this work we present a formalism to describe non equilibrium conditions in systems with a discretized energy spectrum, such as quantum systems. We develop a formalism based on a combination of Gibbs-Shannon entropy and information thermodynamics that arrives to a generalization of the De-Brujin identity applicable to discrete and non-symmetric distributions. This allows to define the concept of a thermodynamic temperature with a different, albeit complementary meaning to the equilibrium kinetic temperature of a system. The theory is applied to Bosonic and Fermionic cases represented by an harmonic oscillator and a single energy state, respectively. We show that the formalism correctly recovers known results at equilibrium, then we demonstrate an application to a genuine non equilibrium state: a coherent quantum oscillator.

preprint2013arXivOpen access
Alessio GagliardiAlessandro PecchiaAldo Di Carlo
cond-mat.stat-mech
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Alessio GagliardiAlessandro PecchiaAldo Di Carlo

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