The formation and fate of internal waves in the South China Sea MH Alford, T Peacock, JA MacKinnon, JD Nash, MC Buijsman, ... Nature 521 (7550), 65-69, 2015 | 638 | 2015 |
Rapidly rotating turbulent Rayleigh-Bénard convection K Julien, S Legg, J McWilliams, J Werne Journal of Fluid Mechanics 322, 243-273, 1996 | 338 | 1996 |
The GFDL global ocean and sea ice model OM4. 0: Model description and simulation features A Adcroft, W Anderson, V Balaji, C Blanton, M Bushuk, CO Dufour, ... Journal of Advances in Modeling Earth Systems 11 (10), 3167-3211, 2019 | 318 | 2019 |
Climate process team on internal wave–driven ocean mixing JA MacKinnon, Z Zhao, CB Whalen, AF Waterhouse, DS Trossman, ... Bulletin of the American Meteorological Society 98 (11), 2429-2454, 2017 | 313 | 2017 |
Challenges and prospects in ocean circulation models B Fox-Kemper, A Adcroft, CW Böning, EP Chassignet, E Curchitser, ... Frontiers in Marine Science 6, 65, 2019 | 230 | 2019 |
Improving oceanic overflow representation in climate models: The gravity current entrainment climate process team S Legg, T Ezer, L Jackson, BP Briegleb, G Danabasoglu, WG Large, ... Bull. Amer. Meteor. Soc 90, 657-670, 2009 | 215 | 2009 |
Comparison of entrainment in overflows simulated by z-coordinate, isopycnal and non-hydrostatic models S Legg, RW Hallberg, JB Girton Ocean Modelling 11 (1-2), 69-97, 2006 | 208 | 2006 |
Internal wave breaking at concave and convex continental slopes S Legg, A Adcroft Journal of Physical Oceanography 33 (11), 2224-2246, 2003 | 208 | 2003 |
Sensitivity of the ocean state to the vertical distribution of internal-tide-driven mixing A Melet, R Hallberg, S Legg, K Polzin Journal of Physical Oceanography 43 (3), 602-615, 2013 | 178 | 2013 |
The Labrador Sea deep convection experiment Lab Sea Group Bulletin of the American Meteorological Society 79 (10), 2033-2058, 1998 | 178 | 1998 |
Internal hydraulic jumps and overturning generated by tidal flow over a tall steep ridge S Legg, J Klymak Journal of Physical Oceanography 38 (9), 1949-1964, 2008 | 176 | 2008 |
Preliminary simulations of internal waves and mixing generated by finite amplitude tidal flow over isolated topography S Legg, KMH Huijts Deep Sea Research Part II: Topical Studies in Oceanography 53 (1-2), 140-156, 2006 | 161 | 2006 |
A heton model of the spreading phase of open-ocean deep convection S Legg, J Marshall Journal of physical oceanography 23 (6), 1040-1056, 1993 | 155 | 1993 |
Double-ridge internal tide interference and its effect on dissipation in Luzon Strait MC Buijsman, S Legg, J Klymak Journal of Physical Oceanography 42 (8), 1337-1356, 2012 | 139 | 2012 |
A mechanism for local dissipation of internal tides generated at rough topography M Nikurashin, S Legg Journal of Physical Oceanography 41 (2), 378-395, 2011 | 130 | 2011 |
Three-dimensional double-ridge internal tide resonance in Luzon Strait MC Buijsman, JM Klymak, S Legg, MH Alford, D Farmer, JA MacKinnon, ... Journal of Physical Oceanography 44 (3), 850-869, 2014 | 123 | 2014 |
Climatic impacts of parameterized local and remote tidal mixing A Melet, S Legg, R Hallberg Journal of Climate 29 (10), 3473-3500, 2016 | 109 | 2016 |
Localization of deep ocean convection by a mesoscale eddy S Legg, J McWilliams, J Gao Journal of Physical Oceanography 28 (5), 944-970, 1998 | 107 | 1998 |
A simple mixing scheme for models that resolve breaking internal waves JM Klymak, SM Legg Ocean Modelling 33 (3-4), 224-234, 2010 | 101 | 2010 |
A parameterization of shear-driven turbulence for ocean climate models L Jackson, R Hallberg, S Legg Journal of Physical Oceanography 38 (5), 1033-1053, 2008 | 101 | 2008 |