Numerical aspects of applying the fluctuation dissipation theorem to study climate system sensitivity to external forcings
DOI10.1515/rnam-2016-0032zbMath1382.86004OpenAlexW2562044655WikidataQ56746172 ScholiaQ56746172MaRDI QIDQ503590
Grant Branstator, Andrey S. Gritsun
Publication date: 13 January 2017
Published in: Russian Journal of Numerical Analysis and Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1515/rnam-2016-0032
Applications of statistics to environmental and related topics (62P12) Applications of stochastic analysis (to PDEs, etc.) (60H30) Meteorology and atmospheric physics (86A10) Computational methods for problems pertaining to geophysics (86-08)
Related Items (3)
Uses Software
Cites Work
- Stochastic perturbations to dynamical systems: a response theory approach
- Numerical aspects of applying the fluctuation dissipation theorem to study climate system sensitivity to external forcings
- Predicting climate change using response theory: global averages and spatial patterns
- Linear response theory for statistical ensembles in complex systems with time-periodic forcing
- The Fokker-Planck equation. Methods of solution and applications.
- Smooth dynamics and new theoretical ideas in nonequilibrium statistical mechanics
- Chaotic hypothesis: Onsager reciprocity and fluctuation-dissipation theorem.
- Ergodic properties of highly degenerate 2D stochastic Navier-Stokes equations
- General linear response formula in statistical mechanics, and the fluctuation-dissipation theorem far from equilibrium
- On spurious detection of linear response and misuse of the fluctuation-dissipation theorem in finite time series
- Challenges in Climate Science and Contemporary Applied Mathematics
- High skill in low-frequency climate response through fluctuation dissipation theorems despite structural instability
- Elements of a unified framework for response formulae
- On the structure of the attractors of the finite-dimensional approximations of the barotropic vorticity equation on a rotating sphere
- Chaotic dynamics, fluctuations, nonequilibrium ensembles
- Construction of the linear response operator of an atmospheric general circulation model to small external forcing
- Blended response algorithms for linear fluctuation-dissipation for complex nonlinear dynamical systems
- Information Theory and Stochastics for Multiscale Nonlinear Systems
- Irreversibility and Generalized Noise
This page was built for publication: Numerical aspects of applying the fluctuation dissipation theorem to study climate system sensitivity to external forcings
