Raymond A. Shaw
Cited by
Cited by
Particle-turbulence interactions in atmospheric clouds
RA Shaw
Annual Review of Fluid Mechanics 35 (1), 183-227, 2003
Preferential concentration of cloud droplets by turbulence: Effects on the early evolution of cumulus cloud droplet spectra
RA Shaw, WC Reade, LR Collins, J Verlinde
Journal of the atmospheric sciences 55 (11), 1965-1976, 1998
Heterogeneous surface crystallization observed in undercooled water
RA Shaw, AJ Durant, Y Mi
The Journal of Physical Chemistry B 109 (20), 9865-9868, 2005
Evaporation freezing by contact nucleation inside‐out
AJ Durant, RA Shaw
Geophysical Research Letters 32 (20), 2005
Can we understand clouds without turbulence?
E Bodenschatz, SP Malinowski, RA Shaw, F Stratmann
Science 327 (5968), 970-971, 2010
Scale-dependent droplet clustering in turbulent clouds
AB Kostinski, RA Shaw
Journal of fluid mechanics 434, 389, 2001
Inertial clustering of particles in high-Reynolds-number turbulence
EW Saw, RA Shaw, S Ayyalasomayajula, PY Chuang, A Gylfason
Physical review letters 100 (21), 214501, 2008
Heterogeneous freezing of droplets with immersed mineral dust particles–measurements and parameterization
D Niedermeier, S Hartmann, RA Shaw, D Covert, TF Mentel, J Schneider, ...
Atmospheric Chemistry and Physics 10 (8), 3601-3614, 2010
Homogeneous and inhomogeneous mixing in cumulus clouds: Dependence on local turbulence structure
K Lehmann, H Siebert, RA Shaw
Journal of the Atmospheric Sciences 66 (12), 3641-3659, 2009
Heterogeneous ice nucleation: exploring the transition from stochastic to singular freezing behavior
D Niedermeier, RA Shaw, S Hartmann, H Wex, T Clauss, J Voigtländer, ...
München: European Geopyhsical Union, 2011
Experimental determination of the thermal accommodation and condensation coefficients of water
RA Shaw, D Lamb
The Journal of Chemical Physics 111 (23), 10659-10663, 1999
Ice nucleation and overseeding of ice in volcanic clouds
AJ Durant, RA Shaw, WI Rose, Y Mi, GGJ Ernst
Journal of Geophysical Research: Atmospheres 113 (D9), 2008
Crystal structure, stable isotopes (δ18O), and development of sea ice in the Ross, Amundsen, and Bellingshausen seas, Antarctica
MO Jeffries, RA Shaw, K Morris, AL Veazey, HR Krouse
Journal of Geophysical Research: Oceans 99 (C1), 985-995, 1994
Cloud particle size distributions measured with an airborne digital in-line holographic instrument
JP Fugal, RA Shaw
Atmospheric Measurement Techniques 2 (1), 259-271, 2009
Airborne digital holographic system for cloud particle measurements
JP Fugal, RA Shaw, EW Saw, AV Sergeyev
Applied optics 43 (32), 5987-5995, 2004
Probing finescale dynamics and microphysics of clouds with helicopter-borne measurements
H Siebert, H Franke, K Lehmann, R Maser, EW Saw, D Schell, RA Shaw, ...
Bulletin of the American Meteorological Society 87 (12), 1727-1738, 2006
Do all raindrops fall at terminal speed?
G Montero‐Martínez, AB Kostinski, RA Shaw, F García‐García
Geophysical Research Letters 36 (11), 2009
Structural characteristics of congelation and platelet ice and their role in the development of Antarctic land-fast sea ice
MO Jeffries, WF Weeks, R Shaw, K Morris
Journal of Glaciology 39 (132), 223-238, 1993
Fluctuations and luck in droplet growth by coalescence
AB Kostinski, RA Shaw
Bulletin of the American Meteorological Society 86 (2), 235-244, 2005
Observations of turbulence-induced new particle formation in the residual layer
B Wehner, H Siebert, A Ansmann, F Ditas, P Seifert, F Stratmann, ...
München: European Geopyhsical Union, 2010
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