The Fluctuation Relation (FR) is an asymptotic result on the distribution of certain observables averaged over time intervals T as T goes to infinity and it is a generalization of the fluctuation--dissipation theorem to far from equilibrium systems in a steady state which reduces to the usual Green-Kubo (GK) relation in the limit of small external non conservative forces. FR is a theorem for smooth uniformly hyperbolic systems, and it is assumed to be true in all dissipative ``chaotic enough'' systems in a steady state. In this paper we develop a theory of finite time corrections to FR, needed to compare the asymptotic prediction of FR with numerical observations, which necessarily involve fluctuations of observables averaged over finite ti...
There are only a very few known relations in statistical dynamics that are valid for systems driven ...
Green-Kubo and Einstein expressions for the transport coefficients of a fluid in a nonequilibrium st...
The fluctuation theorem (FT) quantifies the probability of Second Law of Thermodynamics violations i...
The Fluctuation Relation (FR) is an asymptotic result on the distribution of certain observables ave...
The Fluctuation Relation (FR) is an asymptotic result on the distribution of certain observables ave...
In this paper we review some recent progress in the field of non-equilibrium linear response theory....
The statistics of systems with good chaotic properties obey a formal fluctuation-response relation w...
Recently, there has been considerable interest in the fluctuation theorem (FT). The Evans-Searles FT...
General aspects of the Fluctuation–Dissipation Relation (FDR), and Response Theory are considered. A...
General aspects of the Fluctuation-Dissipation Relation (FDR), and Response Theory are considered. A...
For systems close to equilibrium, the relaxation properties of measurable physical quantities are de...
In this paper we tackle the traditional problem of relating the fluctuations of a system to its resp...
We discuss the fluctuation properties of equilibrium chaotic systems with constraints such as isokin...
We consider the general response theory recently proposed by Ruelle for describing the impact of sma...
We introduce a general formulation of the fluctuation-dissipation relations (FDRs) holding also in f...
There are only a very few known relations in statistical dynamics that are valid for systems driven ...
Green-Kubo and Einstein expressions for the transport coefficients of a fluid in a nonequilibrium st...
The fluctuation theorem (FT) quantifies the probability of Second Law of Thermodynamics violations i...
The Fluctuation Relation (FR) is an asymptotic result on the distribution of certain observables ave...
The Fluctuation Relation (FR) is an asymptotic result on the distribution of certain observables ave...
In this paper we review some recent progress in the field of non-equilibrium linear response theory....
The statistics of systems with good chaotic properties obey a formal fluctuation-response relation w...
Recently, there has been considerable interest in the fluctuation theorem (FT). The Evans-Searles FT...
General aspects of the Fluctuation–Dissipation Relation (FDR), and Response Theory are considered. A...
General aspects of the Fluctuation-Dissipation Relation (FDR), and Response Theory are considered. A...
For systems close to equilibrium, the relaxation properties of measurable physical quantities are de...
In this paper we tackle the traditional problem of relating the fluctuations of a system to its resp...
We discuss the fluctuation properties of equilibrium chaotic systems with constraints such as isokin...
We consider the general response theory recently proposed by Ruelle for describing the impact of sma...
We introduce a general formulation of the fluctuation-dissipation relations (FDRs) holding also in f...
There are only a very few known relations in statistical dynamics that are valid for systems driven ...
Green-Kubo and Einstein expressions for the transport coefficients of a fluid in a nonequilibrium st...
The fluctuation theorem (FT) quantifies the probability of Second Law of Thermodynamics violations i...