Add to ORKGClimate variability has significant human impact but is difficult to model and predict. Recent theoretical develop-ments in nonequilibrium statistical mechanics cover a class of stochastic models often used for climate phenomena. The theory for a coarse-grained entropy production is developed for simple stochastic climate models and applied to observed tropical sea surface temperatures (SST), demonstrating that nonequilibrium properties can be quantified with climate datasets, and that tropical SST variability is approximately consistent with fluctuations about a nonequilibrium steady-state with relatively few degrees-of-freedom. Fluctuations with negative entropy production demonstrate that seasonal tropical SST variability is small and fa...
The concept of stochastic climate models developed in Part I of this series (Hasselmann, 1976) is ap...
International audienceMany global atmospheric models have too little precipitation variability in th...
Prototype coarse-grained stochastic parametrizations for the interaction with unresolved features of...
[1] Variation of sea surface temperature (SST) on seasonal-to-interannual time-scales leads to chang...
International audienceThe climate is a forced, dissipative, nonlinear, complex, and heterogeneous sy...
The statistics of high-frequency climate variability in observations and reanalyses are markedly non...
htmlabstractIntroduction The behavior of the atmosphere, oceans, and climate is intrinsically unc...
The climate is a forced and dissipative nonlinear system featuring nontrivial dynamics on a vast ran...
The fluctuation-dissipation theorem (FDT) has been proposed as a method of calculating the mean resp...
none2siWe extend the analysis of the thermodynamics of the climate system by investigating the role ...
The entropy budget is calculated of the coupled atmosphere-ocean general circulation model HadCM3. E...
International audienceThis work examines the relevance of a classical two-column modeling framework ...
The concept of stochastic climate models developed in Part I of this series (Hasselmann, 1976) is ap...
International audienceMany global atmospheric models have too little precipitation variability in th...
Prototype coarse-grained stochastic parametrizations for the interaction with unresolved features of...
[1] Variation of sea surface temperature (SST) on seasonal-to-interannual time-scales leads to chang...
International audienceThe climate is a forced, dissipative, nonlinear, complex, and heterogeneous sy...
The statistics of high-frequency climate variability in observations and reanalyses are markedly non...
htmlabstractIntroduction The behavior of the atmosphere, oceans, and climate is intrinsically unc...
The climate is a forced and dissipative nonlinear system featuring nontrivial dynamics on a vast ran...
The fluctuation-dissipation theorem (FDT) has been proposed as a method of calculating the mean resp...
none2siWe extend the analysis of the thermodynamics of the climate system by investigating the role ...
The entropy budget is calculated of the coupled atmosphere-ocean general circulation model HadCM3. E...
International audienceThis work examines the relevance of a classical two-column modeling framework ...
The concept of stochastic climate models developed in Part I of this series (Hasselmann, 1976) is ap...
International audienceMany global atmospheric models have too little precipitation variability in th...
Prototype coarse-grained stochastic parametrizations for the interaction with unresolved features of...