Many thermodynamic relations involve inequalities, with equality if a process does not involve dissipation. In this article we provide equalities in which the dissipative contribution is shown to involve the relative entropy (a.k.a. Kullback-Leibler divergence). The processes considered are general time evolutions both in classical and quantum mechanics, and the initial state is sometimes thermal, sometimes partially so. By calculating a transport coefficient we show that indeed—at least in this case—the source of dissipation in that coefficient is the relative entropy
In the usual physical teaching, Mechanics and Thermodynamics seem to belong to different paradigms, ...
Milestones in the development of thermodynamics are the discovery of the absolute temperature scale ...
In this paper, a general definition of entropy is presented, based on operative definitions of all t...
International audienceMany thermodynamic relations involve inequalities, with equality if a process ...
In this paper we review various information-theoretic characterizations of the approach to equilibri...
When systems are far from equilibrium, the temperature, the entropy and the thermodynamic entropy pr...
Entropy is the distinguishing and most important concept of our efforts to understand and regularize...
Connections between microscopic dynamical observables and macroscopic nonequilibrium (NE) properties...
Protocols can be used to evolve a quantum system from one state to another by dictating the Hamilton...
The general theory of simple transport processes between quantum mechanical reservoirs is r...
Exact results about the nonequilibrium thermodynamics of open quantum systems at arbitrary timescale...
The quantum entropy is usually defined using von Neumann's formula, which measures lack of informati...
The Rényi entropy is a generalization of the usual concept of entropy which depends on a parameter q...
A short survey of the phenomenological formulation of the second law and of dissipative structures i...
Quantum decoherence is seen as an undesired source of irreversibility that destroys quantum resource...
In the usual physical teaching, Mechanics and Thermodynamics seem to belong to different paradigms, ...
Milestones in the development of thermodynamics are the discovery of the absolute temperature scale ...
In this paper, a general definition of entropy is presented, based on operative definitions of all t...
International audienceMany thermodynamic relations involve inequalities, with equality if a process ...
In this paper we review various information-theoretic characterizations of the approach to equilibri...
When systems are far from equilibrium, the temperature, the entropy and the thermodynamic entropy pr...
Entropy is the distinguishing and most important concept of our efforts to understand and regularize...
Connections between microscopic dynamical observables and macroscopic nonequilibrium (NE) properties...
Protocols can be used to evolve a quantum system from one state to another by dictating the Hamilton...
The general theory of simple transport processes between quantum mechanical reservoirs is r...
Exact results about the nonequilibrium thermodynamics of open quantum systems at arbitrary timescale...
The quantum entropy is usually defined using von Neumann's formula, which measures lack of informati...
The Rényi entropy is a generalization of the usual concept of entropy which depends on a parameter q...
A short survey of the phenomenological formulation of the second law and of dissipative structures i...
Quantum decoherence is seen as an undesired source of irreversibility that destroys quantum resource...
In the usual physical teaching, Mechanics and Thermodynamics seem to belong to different paradigms, ...
Milestones in the development of thermodynamics are the discovery of the absolute temperature scale ...
In this paper, a general definition of entropy is presented, based on operative definitions of all t...