| 1 |
Introduction (PDF - 1.0 MB) |
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| 2 |
Transition to Turbulence (PDF) |
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| 3 |
Statistics and Turbulence (PDF) |
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| 4-6 |
Convection (PDF) |
Page 5: planforms
Page 7: growth rate surfaces
Page 7: stability bndry
Page 9: lorenz eqns tau=0
Page 9: lorenz eqns tau=10
Page 11: mfa
Page 11: 2d
Page 12: rough surfaces
Page 13: finite amp
Page 14: surface convection
Page 15: thermals
Page 15: thermals in stratification
Page 16: plumes
Page 16: plumes in stratification
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| 7-8 |
3D Turbulence (PDF) |
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| 9 |
2D Turbulence (PDF) |
Page 2: 2d
Page 2: statistics
Page 2: averages
Page 3: mean k
Page 5: point vortex simulations
Page 7: vortex waves
Page 7: vortices in shear
Page 8: vortices in neighbor field
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| 10 |
QG Turbulence (PDF) |
Page 4: means
Page 5: two vertical mode case
Page 6: example
Page 6: resonance
Page 7: resonance-angle
Page 7: resonance-modes
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| 11 |
Mean-Field Approximation |
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| 12 |
SQG Turbulence (PDF) |
Page 1: atmosphereic and oceanic stratification
Page 2: sqg turbulence
Page 6: triad interactions
Page 8: finite-depth sqg
Page 9: eady problem
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| 13 |
Effective Diffusivity (PDF) |
Page 2: qgpv and fluxes
Page 6: stokes drift
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| 14 |
Transformed Eulerian Mean (PDF) |
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| 15 |
Transformed Eulerian Mean in 3D (PDF) |
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| 16 |
Particle Motions, Stokes' Drift (PDF) |
Page 1: random flight
Page 8: stokes drift
Page 8: psi
Page 9: poincare sections
Page 9: continuum
Page 10: bio dynamics
Page 13: effective coeff
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| 17 |
Baroclinic Turbulence (PDF) |
Page 2: growth rates
Page 2: eady
Page 2: examples
Page 3: diagnostics
Page 3: triad
Page 7: example
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| 18 |
Gyres (PDF) |
Page 1: stommel 1 gyre
Page 1: two gyre
Page 3: example
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| 19 |
Turbulent Boundary Layers (PDF) |
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| 20 |
Nonlinear Internal Waves, Solitary Waves (PDF) |
Page 7: collision
Page 7: kdv solns
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| 21 |
Topographic Waves (PDF) |
Page 1: internal gravity waves
Page 2: free gravity wave properties
Page 4: lee waves
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