Books
 
2. Waves and Mean Flows
Research monograph, under contract with Cambridge University Press.
To appear in summer 2009 in the series Cambridge Monographs on Mechanics.
 
 
Sneek preview:  table of contents.
 
1. A Brief Introduction to Classical, Statistical, and Quantum Mechanics
Courant Lecture Notes Series vol. 13, American Mathematical Society, 2006.
(amazon, AMS)
 
 
 
 
 
        
 
 
 
        
 
 
Hundred most frequent words in this book (amazon):
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Articles
 
22. Bühler, O, 2009
Wave-mean interactions in fluids and superfluids
Annual Review of Fluid Mechanics, 42.
 
21. Muller, C., Bühler, O., 2008
Saturation of the internal tides and induced mixing in the abyssal ocean.
Journal of Physical Oceanography, submitted.
 
20. Barreiro, A., Bühler, O., 2008
Longshore current dislocation on barred beaches.
Journal of Geophysical Research - Oceans, in press.
 
19. Bühler, O, 2008
Wave-vortex interactions.
Fronts, waves and vortices in geophysics, ed. J.B. Flor, Springer,
Lecture notes in physics, in press
 
18. Hasha, A., Bühler, O., & Scinocca, J.F, 2008
Gravity wave refraction by three-dimensionally varying winds and the global transport of angular momentum.
Journal of the Atmospheric Sciences, 65, 2892-2906.
 
17. Bühler, O., Muller, C., 2007
Instability and focusing of internal tides in the deep ocean.
Journal of Fluid Mechanics, 588, 1-28.
 
16. Bühler, O. 2007
Large deviation theory and extreme waves (file)
`Aha Huliko`a proceedings 2007
 
15. Oliver, M., Bühler, O., 2007
Transparent boundary conditions as dissipative subgrid closures for the spectral representation of scalar advection by shear flows.
Journal of Mathematical Physics, 48, 065502, 26pp.
 
14. Bühler, O., 2007
Impulsive fluid forcing and water strider locomotion.
Journal of Fluid Mechanics, 573, 211-236
 
13. Bühler, O., McIntyre, M. E., 2005
Wave capture and wave–vortex duality.
Journal of Fluid Mechanics, 534, 67-95.
 
12. Bühler, O., 2005
Wave-mean interaction theory
Nonlinear Waves in Fluids, ed. R. Grimshaw, Springer CISM 483,  95-133
 
11. Bühler, O., McIntyre, M. E., 2003
Remote recoil: a new wave–mean interaction effect.
Journal of Fluid Mechanics, 492, 207-230.
 
10. Bühler, O., 2003
Equatorward propagation of inertia–gravity waves due to steady and intermittent sources.
Journal of the Atmospheric Sciences, 60, 1410-1419.
 
9. Bühler, O., 2002
Statistical mechanics of strong and weak point vortices in a cylinder.
Physics of Fluids, 14, 2139-2149. animations
 
8. Bühler, O., Jacobson, T. E., 2001
Wave-driven currents and vortex dynamics on barred beaches.
Journal of Fluid Mechanics, 449, 313-339.
 
7. Bühler, O., 2000
On the vorticity transport due to dissipating or breaking waves in shallow-water flow.
Journal of Fluid Mechanics, 407, 235-263.
 
6. Bühler, O., McIntyre, M. E., 1999
On shear-generated gravity waves that reach the mesosphere.
Part ii: wave propagation
Journal of the Atmospheric Sciences, 56, 3764-3773.
 
5. Bühler, O., McIntyre, M. E., & Scinocca, J. F., 1999
On shear-generated gravity waves that reach the mesosphere.
Part i: wave generation
Journal of the Atmospheric Sciences, 56, 3749-3763.
 
4. Bühler, O. Haynes P.H., 1999
Constraints on the mean mass transport across potential vorticity contours.
Journal of the Atmospheric Sciences, 56, 942-947.
 
3. Mo, R., Bühler, O., & McIntyre, M. E., 1998
Permeability of the stratospheric vortex edge: on the mean mass flux due to thermally dissipating, steady, non-breaking Rossby waves.
Quarterly Journal of the Royal Meteorological Society, 124, 2129-2148.
 
2. Bühler, O., McIntyre, M. E., 1998
On non-dissipative wave–mean interactions in the atmosphere or oceans.
Journal of Fluid Mechanics, 354, 301-343.
 
1. Bühler, O., 1998
A shallow-water model that prevents nonlinear steepening of gravity waves.
Journal of the Atmospheric Sciences, 55, 2884-2891.
 
Dissertations
 
2. PhD, 1996 (supervised by Prof. Michael E. McIntyre):
Waves and Balanced Mean Flows in the Atmosphere.
180pages. Cambridge University.
 
1. Diplom, 1992 (supervised by Prof. Ingo Müller):
Randbedingungen in verdünnten Gasen. Einfluß von Inertialkräften auf Spannung und Wärmefluß.
(Boundary Conditions in Rarefied Gases. Influence of Inertial Forces on Stress and Heat flux.)
76pages. Technische Universität Berlin.
Provides between two covers a rapid introduction to particle mechanics, dispersive waves, statistical mechanics, and elementary quantum mechanics aimed at advanced undergraduates and beginning graduate students. Focuses on mathematical techniques (e.g. Hamilton–Jacobi theory and path integrals) that provide links between seemingly unrelated material.