1. Intercomparison of methods of coupling between convection and large‐scale circulation: 2. Comparison over nonuniform surface conditions Daleu, Chimene L.; Plant, Robert S.; Woolnough, Steve J.; Sessions, Sharon L.; Herman, Michael J.; Sobel, Adam H.; Wang, Shuguang; Kim, Daehyun; Cheng, A.; Bellon, Gilles; Peyrillé, Philippe; Ferry, Frédéric; Siebesma, Pier; van Ulft, Lambertus H. 2016 Articles Convection (Meteorology)Atmospheric circulation--Mathematical modelsMeteorologyPrecipitation (Meteorology)Clouds
2. Intercomparison of methods of coupling between convection and large‐scale circulation: 1. Comparison over uniform surface conditions Daleu, Chimene L.; Plant, Robert S.; Woolnough, Steve J.; Sessions, Sharon L.; Herman, Michael J.; Sobel, Adam H.; Wang, Shuguang; Kim, Daehyun; Cheng, A.; Bellon, Gilles; Peyrillé, Philippe; Ferry, Frédéric; Siebesma, Pier; van Ulft, Lambertus H. 2015 Articles Convection (Meteorology)Atmospheric circulation--ModelsPrecipitation (Meteorology)ClimatologyMeteorologyDynamics
3. Regional Simulation of the October and November MJO Events Observed during the CINDY/DYNAMO Field Campaign at Gray Zone Resolution Wang, Shuguang; Sobel, Adam H.; Zhang, Fuqing; Sun, Y. Qiang; Yue, Ying; Zhou, Lei 2015 Articles Madden-Julian oscillationConvection (Meteorology)Atmospheric circulation--Mathematical modelsAtmosphereMeteorologyHydrology
4. Response of convection to relative sea surface temperature: Cloud-resolving simulations in two and three dimensions Wang, Shuguang; Sobel, Adam H. 2011 Articles Clouds--DynamicsConvection (Meteorology)Atmospheric circulation--Mathematical modelsAtmosphereMeteorologyHydrology