TRR 181
DFG
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Area M
Mathematics, New Concepts and Methods
M2
Mathematical, Numerical and Datadriven Approaches to Ocean Parameterisations
M3
Towards Consistent Subgrid Momentum Closures
M5
Reducing Spurious Dissipation and Energetic Inconsistencies in Realistic Ocean Modelling Applications
Area T
Turbulence and Boundary Layer
T2
Ocean Surface Layer Energetics
T4
Energy Fluxes at the Air-Sea Interface
T5
Gravity Wave Genesis, Break-up and Dissipation
Area W
Wave Processes
W1
Gravity Wave Parameterisation for the Atmosphere
W2
Observed and Simulated Internal Tides: Generation, Modification by Eddies, and Contribution to Energy Budget
W4
Gravity Wave Parameterisation for the Ocean
W5
Internal Wave Energy Dissipation and Wavenumber Spectra: Adaptive Sampling in the Ocean Interior
W6
Spectral Energy Fluxes by Wave-Wave Interactions
Area L
Large-Scale and Balanced Processes
L2
Quantifying Dynamical Regimes in the Ocean and the Atmosphere
L3
Meso- to Submesoscale Turbulence in the Ocean
L4
Multiscale Ocean-Atmosphere Coupling
L5
Future Climate Applications of Mixing Parameterisations in Earth-System Models
Area S
Synthesis with Climate Models
S1
Diagnosis and Metrics in Climate Models
S2
Improved Parameterisations and Numerics in Climate Models
S3
Climate Model Intercomparison
Archive
Phase 1
Area M
Mathematics, new concepts and methods
Area T
Turbulence and boundary layer
Area W
Wave processes
Area L
Large-scale and balanced processes
Area S
Synthesis Climate models as metrics
Phase 2
Area M
Mathematics, New Concepts and Methods
Area T
Turbulence and Boundary Layer
Area W
Wave Processes
Area L
Large-Scale and Balanced Processes
Area S
Synthesis with Climate Models
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