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Ergodic theory of climate: variability, stability and response
A.J.J. Tantet
Sub Physical Oceanography
Marine and Atmospheric Research
Research output
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Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
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Dive into the research topics of 'Ergodic theory of climate: variability, stability and response'. Together they form a unique fingerprint.
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Keyphrases
Climate Response
100%
Climate Variability
100%
Ergodic Theory
100%
Transfer Operator
100%
Climate Stability
100%
Earth System
66%
Slowing down
66%
Dominant Pattern
66%
Early Warning Indicators
66%
El Niño-Southern Oscillation
66%
Western Europe
33%
Climate Models
33%
Troposphere
33%
General Circulation Models
33%
Natural Variability
33%
Tropics
33%
North America
33%
Statistical Properties
33%
Transition Pathways
33%
Climate Sensitivity
33%
Mid-latitude
33%
Climate Research
33%
Linear Response
33%
Eigenvector
33%
Nonlinear Effects
33%
Dynamical Systems Theory
33%
Blocking Events
33%
Slow Decay
33%
System Stability
33%
Mathematical Framework
33%
Snow Cover
33%
Climate Dynamics
33%
Interannual Time Scale
33%
Unifying Theories
33%
Stochastic Systems
33%
High-dimensional Systems
33%
Ice-albedo Feedback
33%
Intermediate Complexity Model
33%
Almost Invariant Set
33%
Work Support
33%
Great Debates
33%
Predictability Sources
33%
Ation
33%
Correlation Decay
33%
Natural Response
33%
Sensitivity Response
33%
Atmospheric Regimes
33%
Ergodic System
33%
Dramatic Event
33%
Earth and Planetary Sciences
Climate Variation
100%
El Nino-Southern Oscillation
66%
Western Europe
33%
Climate Modeling
33%
Atmospherics
33%
Albedo
33%
Troposphere
33%
General Circulation Model
33%
State of the Art
33%
North America
33%
Temperate Region
33%
Systems Theory
33%
Systems Stability
33%
Climate Dynamics
33%
Eigenvector
33%
Timescale
33%
Dynamical System
33%
Mathematics
Ergodicity
100%
Ergodic Theory
100%
Earth System
33%
Dynamical System
16%
Timescale
16%
Almost-Invariant Set
16%
General Circulation Models
16%
Systems Theory
16%
Statistical Property
16%
Dimensional System
16%
Stochastic System
16%
Eigenvector
16%
Engineering
Ergodicity
100%
Earth System
33%
Applicability
16%
Dynamical System Theory
16%
Statistical Property
16%
Nonlinear Effect
16%
Direct Relation
16%
Linear Response
16%
Dimensional System
16%
Midlatitudes
16%
Stochastic System
16%
Eigenvector
16%
Albedo
16%
Systems Stability
16%
Invariant Set
16%