The use of linear response theory for forced dissipative stochastic dynamical systems through the fluctuation dissipation theorem is an attractive way to study climate change systematically among other applications. Here, a mathematically rigorous justification of linear response theory for forced dissipative stochastic dynamical systems is developed. The main results are formulated in an abstract setting and apply to suitable systems, in finite and infinite dimensions, that are of interest in climate change science and other applications
We introduce a general formulation of the fluctuation-dissipation relations (FDRs) holding also in f...
The linear response theory of systems obeying Fokker-Planck equations is discussed under the assumpt...
Dynamical systems are often subject to forcing or changes in their governing parameters and it is of...
A linear response theory of systems of interest in atmospheric and climate dynamics taking fully int...
In this paper we review some recent progress in the field of non-equilibrium linear response theory....
Recently, there has been considerable interest in the fluctuation theorem (FT). The Evans-Searles FT...
In this paper we tackle the traditional problem of relating the fluctuations of a system to its resp...
We consider the general response theory recently proposed by Ruelle for describing the impact of sma...
We provide a physical interpretation of the first and second order terms occurring in Ruelle respons...
In the realm of statistical physics, a system can be studied for its response to an external stimulu...
International audienceWe reconsider the theory of the linear response of non-equilibrium steady stat...
Article discussing linear response and fluctuation dissipation theorem for non-Poissonian renewal pr...
The response of a nonlinear stochastic system driven by an external sinusoidal time-dependent force ...
The unique fluctuation\u2013dissipation theorem for equilibrium stands in contrast with the wide var...
This book presents a modern and systematic approach to Linear Response Theory (LRT) by combining ana...
We introduce a general formulation of the fluctuation-dissipation relations (FDRs) holding also in f...
The linear response theory of systems obeying Fokker-Planck equations is discussed under the assumpt...
Dynamical systems are often subject to forcing or changes in their governing parameters and it is of...
A linear response theory of systems of interest in atmospheric and climate dynamics taking fully int...
In this paper we review some recent progress in the field of non-equilibrium linear response theory....
Recently, there has been considerable interest in the fluctuation theorem (FT). The Evans-Searles FT...
In this paper we tackle the traditional problem of relating the fluctuations of a system to its resp...
We consider the general response theory recently proposed by Ruelle for describing the impact of sma...
We provide a physical interpretation of the first and second order terms occurring in Ruelle respons...
In the realm of statistical physics, a system can be studied for its response to an external stimulu...
International audienceWe reconsider the theory of the linear response of non-equilibrium steady stat...
Article discussing linear response and fluctuation dissipation theorem for non-Poissonian renewal pr...
The response of a nonlinear stochastic system driven by an external sinusoidal time-dependent force ...
The unique fluctuation\u2013dissipation theorem for equilibrium stands in contrast with the wide var...
This book presents a modern and systematic approach to Linear Response Theory (LRT) by combining ana...
We introduce a general formulation of the fluctuation-dissipation relations (FDRs) holding also in f...
The linear response theory of systems obeying Fokker-Planck equations is discussed under the assumpt...
Dynamical systems are often subject to forcing or changes in their governing parameters and it is of...