125 citations as recorded by crossref.

1. Spontaneous Aggregation of Convective Storms C. Muller et al.
2. Acceleration of Tropical Cyclone Development by Cloud-Radiative Feedbacks A. Wing
3. The Impact of Radiative Transfer at Reduced Spectral Resolution in Large‐Eddy Simulations of Convective Clouds M. Veerman et al.
4. Quantifying Energy Balance Regimes in the Modern Climate, Their Link to Lapse Rate Regimes, and Their Response to Warming O. Miyawaki et al.
5. Accelerating radiative transfer calculations for high‐resolution atmospheric models H. Barker & J. Li
6. Sensitivity of Radiative‐Convection Equilibrium to Divergence Damping in GFDL‐FV3‐Based Cloud‐Resolving Model Simulations U. Anber et al.
7. The Fast Response of the Tropical Circulation to CO2 Forcing E. Plesca et al.
8. Can We Use 1D Models to Predict 3D Model Response to Forcing in an Idealized Framework? Y. Hwong et al.
9. Clouds and Convective Self‐Aggregation in a Multimodel Ensemble of Radiative‐Convective Equilibrium Simulations A. Wing et al.
10. Atmospheric Convection J. Lin et al.
11. The Zero Emissions Commitment and climate stabilization S. Palazzo Corner et al.
12. Properties, Changes, and Controls of Deep‐Convecting Clouds in Radiative‐Convective Equilibrium C. Stauffer & A. Wing
13. Assessing the Sensitivity of the Tropical Cyclone Boundary Layer to the Parameterization of Momentum Flux in the Community Earth System Model K. Nardi et al.
14. Atmospheric Convection Plays a Key Role in the Climate of Tidally Locked Terrestrial Exoplanets: Insights from High-resolution Simulations D. Sergeev et al.
15. Factors determining tropical upper-level cloud radiative effect in the radiative-convective equilibrium framework H. Kang et al.
16. From Complexity to Simplicity and Back A. Apte
17. A Spectrum of Convective Self‐Aggregation Based on Background Rotation J. Carstens & A. Wing
18. Re-Examining the First Climate Models: Climate Sensitivity of a Modern Radiative–Convective Equilibrium Model L. Kluft et al.
19. Accelerating Large‐Eddy Simulations of Clouds With Tensor Processing Units S. Chammas et al.
20. Forcing Convection to Aggregate Using Diabatic Heating Perturbations B. Dingley et al.
21. Theories for Past and Future Monsoon Rainfall Changes S. Hill
22. The Compressional Beta Effect and Convective System Propagation H. Ong & D. Yang
23. Convection and Convective‐Organization in Hothouse Climates G. Dagan et al.
24. The Sensitivity of the Jet Stream Response to Climate Change to Radiative Assumptions Z. Tan et al.
25. Climate sensitivity and relative humidity changes in global storm-resolving model simulations of climate change T. Merlis et al.
26. A method for characterizing the spatial organization of deep convective cores in deep convective systems' cloud shield using idealized elementary convective structure decomposition L. Netz et al.
27. FAT or FiTT: Are Anvil Clouds or the Tropopause Temperature Invariant? J. Seeley et al.
28. Diurnal Variation of Simulated Cumulus Convection in Radiative-Convective Equilibrium T. Yanase & T. Takemi
29. How to think about the clear-sky shortwave water vapor feedback F. Roemer et al.
30. Explicitly Resolved Cloud Feedbacks in the Radiative‐Convective Equilibrium Model Intercomparison Project C. Stauffer & A. Wing
31. Radiatively-cooled moist convection under idealised climate change scenarios: linear analysis G. Dritschel et al.
32. Precipitation Efficiency and its Role in Cloud-Radiative Feedbacks to Climate Variability C. SUI et al.
33. A wavelet‐based analysis of convective organization in ICON large‐eddy simulations S. Brune et al.
34. Predicting atmospheric optical properties for radiative transfer computations using neural networks M. Veerman et al.
35. Vertical Resolution Impacts Explicit Simulation of Deep Convection A. Jenney et al.
36. Dynamical imprints on precipitation cluster statistics across a hierarchy of high-resolution simulations C. Stephan & B. Stevens
37. Roles of Cloud Microphysics on Cloud Responses to Sea Surface Temperatures in Radiative‐Convective Equilibrium Experiments Using a High‐Resolution Global Nonhydrostatic Model T. Ohno & M. Satoh
38. Representativity of cloud‐profiling radar observations for data assimilation in numerical weather prediction H. Barker et al.
39. Surface temperature dependence of stratospheric sulfate aerosol clear-sky forcing and feedback R. Hegde et al.
40. 100 Years of Earth System Model Development D. Randall et al.
41. Error Analysis for an Algorithm That Reduces Radiative Transfer Calculations in High‐Resolution Atmospheric Models H. Barker et al.
42. Bistability of the Atmospheric Circulation on TRAPPIST-1e D. Sergeev et al.
43. Competing Effect of Radiative and Moisture Feedback in Convective Aggregation States in Two CRMs P. Cerlini et al.
44. Convection On the Edge J. Windmiller & C. Hohenegger
45. A Framework to Evaluate Convective Aggregation: Examples With Different Microphysics Schemes J. Huang & C. Wu
46. RCEMIP-II: mock-Walker simulations as phase II of the radiative–convective equilibrium model intercomparison project A. Wing et al.
47. A radiative–convective model computing precipitation with the maximum entropy production hypothesis Q. Pikeroen et al.
48. New Critical Length for the Onset of Self‐Aggregation of Moist Convection T. Yanase et al.
49. Impacts of Sub-grid Ice Cloud Physics in a Turbulence Scheme on High Clouds and their Response to Global Warming T. OHNO et al.
50. Radiative Convective Equilibrium and Organized Convection: An Observational Perspective C. Jakob et al.
51. The Influence of the Stratosphere on the Tropical Troposphere P. HAYNES et al.
52. Idealized Simulations of the Tropical Climate and Variability in the Single Column Atmosphere Model (SCAM): Radiative‐Convective Equilibrium I. Hu et al.
53. Responses of Clouds and Large‐Scale Circulation to Global Warming Evaluated From Multidecadal Simulations Using a Global Nonhydrostatic Model A. Noda et al.
54. Quantifying Convective Aggregation Using the Tropical Moist Margin's Length T. Beucler et al.
55. Moist Convection Is Most Vigorous at Intermediate Atmospheric Humidity J. Seeley & R. Wordsworth
56. Simulations of Radiative‐Convective‐Dynamical Equilibrium R. Warren et al.
57. Comparing Convective Self‐Aggregation in Idealized Models to Observed Moist Static Energy Variability Near the Equator T. Beucler et al.
58. Surface Moisture Exchange Under Vanishing Wind in Simulations of Idealized Tropical Convection W. Mol et al.
59. Scaling characteristics of modelled tropical oceanic rain clusters C. Teo et al.
60. Global Radiative Convective Equilibrium With a Slab Ocean: SST Contrast, Sensitivity and Circulation D. Hartmann & B. Dygert
61. Tropical Cyclogenesis From Self‐Aggregated Convection in Numerical Simulations of Rotating Radiative‐Convective Equilibrium J. Carstens & A. Wing
62. Control of Stability and Relative Humidity in the Radiative‐Convective Equilibrium Model Intercomparison Project A. Wing & M. Singh
63. Opinion: Tropical cirrus – from micro-scale processes to climate-scale impacts B. Gasparini et al.
64. Tropical Cyclone Frequency A. Sobel et al.
65. Convection Self‐Aggregation in CNRM‐CM6‐1: Equilibrium and Transition Sensitivity to Surface Temperature D. Coppin & R. Roehrig
66. Effects of Circulation on Tropical Cloud Feedbacks in High‐Resolution Simulations A. Mackie & M. Byrne
67. Self-Aggregation of Deep Convection and its Implications for Climate A. Wing
68. Effects of Sea-Surface Temperature, Cloud Vertical Structure and Wind Speed on Temperature Change between Hiatus and Post-Hiatus Periods in Tropical Western Pacific C. Su & J. Kiang
69. On the sensitivity of aerosol–cloud interactions to changes in sea surface temperature in radiative–convective equilibrium S. Lorian & G. Dagan
70. Increased Large‐Scale Convective Aggregation in CMIP5 Projections: Implications for Tropical Precipitation Extremes C. Bläckberg & M. Singh
71. How Well do We Understand the Planck Feedback? T. Cronin & I. Dutta
72. Response of Tropical Cyclone Formation and Intensification Rates to Climate Warming in Idealized Simulations H. Ramsay et al.
73. Using Radiative Convective Equilibrium to Explore Clouds and Climate in the Community Atmosphere Model K. Reed et al.
74. Aquaplanet Simulations of Tropical Cyclones T. Merlis & I. Held
75. Radiation, Clouds, and Self‐Aggregation in RCEMIP Simulations K. Pope et al.
76. Variation in shortwave water vapour continuum and impact on clear-sky shortwave radiative feedback K. Menang et al.
77. Sensitivity of the Horizontal Scale of Convective Self‐Aggregation to Sea Surface Temperature in Radiative Convective Equilibrium Experiments Using a Global Nonhydrostatic Model S. Matsugishi & M. Satoh
78. Horizontal Resolution Sensitivity of the Simple Convection‐Permitting E3SM Atmosphere Model in a Doubly‐Periodic Configuration P. Bogenschutz et al.
79. Global variability in radiative-convective equilibrium with a slab ocean under a wide range of CO2 concentrations G. Drotos et al.
80. The Role of Convection in Troposphere-Lower Stratosphere Interactions in Radiative-Convective Equilibrium Simulations T. Tsai et al.
81. Global Cloud-Resolving Models M. Satoh et al.
82. Self‐Aggregation of Convection in Spatially Varying Sea Surface Temperatures S. Müller & C. Hohenegger
83. Simulated Climate of TRAPPIST-1e Using MPAS-A and Comparisons with Other GCMs L. Gu et al.
84. Evaluation of the Bulk Mass Flux Formulation Using Large-Eddy Simulations J. Gu et al.
85. Radiative forcing from aerosol–cloud interactions enhanced by large-scale circulation adjustments G. Dagan et al.
86. Equilibrium climate sensitivity increases with aerosol concentration due to changes in precipitation efficiency G. Dagan
87. Ensemble of Radiative‐Convective Equilibrium Simulations Near the Aggregated and Scattered Boundary C. Hung & H. Miura
88. Nonrotating Convective Self‐Aggregation in a Limited Area AGCM N. Arnold & W. Putman
89. Global Simulations of the Atmosphere at 1.45 km Grid-Spacing with the Integrated Forecasting System P. DUEBEN et al.
90. A Steady‐State Model for the Relationship Between Humidity, Instability, and Precipitation in the Tropics M. Singh et al.
91. Changing Degree of Convective Organization as a Mechanism for Dynamic Changes in Extreme Precipitation A. Pendergrass
92. Universality in the Spatial Evolution of Self-Aggregation of Tropical Convection J. Windmiller & G. Craig
93. On the Interaction between Moist Convection and Large-Scale Ascent in the Tropics M. Singh & S. Neogi
94. Water vapor and lapse rate feedbacks in the climate system R. Colman & B. Soden
95. The Role of Interactive Soil Moisture in Land Drying Under Anthropogenic Warming W. Zhou et al.
96. Is the Net Cloud Radiative Effect Constrained to be Uniform Over the Tropical Warm Pools? C. Wall et al.
97. The Flexible Modelling Framework for the Met Office Unified Model (Flex-UM, using UM 12.0 release) P. Maher & P. Earnshaw
98. Understanding the Response of Tropical Ascent to Warming Using an Energy Balance Framework A. Jenney et al.
99. Quantifying Key Mechanisms That Contribute to the Deviation of the Tropical Warming Profile From a Moist Adiabat O. Miyawaki et al.
100. The Time Scale of Shallow Convective Self‐Aggregation in Large‐Eddy Simulations Is Sensitive to Numerics M. Janssens et al.
101. Sensitivity of Convective Self‐Aggregation to Domain Size C. Patrizio & D. Randall
102. Tropical Cyclone Precipitation Response to Surface Warming in Aquaplanet Simulations With Uniform Thermal Forcing A. Stansfield & K. Reed
103. The Response of the Large‐Scale Tropical Circulation to Warming L. Silvers et al.
104. Large Eddy Simulation of Vertical Structure and Size Density of Deep Layer Clouds B. Cao et al.
105. Congestus Mode Invigoration by Convective Aggregation in Simulations of Radiative‐Convective Equilibrium A. Sokol & D. Hartmann
106. Multiple Equilibria and Soil Moisture‐Precipitation Feedbacks in Idealized Convection‐Permitting Simulations With an Open Hydrological Cycle T. Abbott & T. Cronin
107. No decrease of tropical convection in individual deep convective systems with global warming M. Bolot et al.
108. Drivers of mesoscale convective aggregation and spatial humidity variability in the tropical western Pacific A. Tompkins et al.
109. The Impact of a Land‐Sea Contrast on Convective Aggregation in Radiative‐Convective Equilibrium B. Dingley et al.
110. Greater climate sensitivity implied by anvil cloud thinning A. Sokol et al.
111. The Role of Interactive SST in the Cloud‐Resolving Simulations of Aggregated Convection Y. Chen & C. Wu
112. Episodic deluges in simulated hothouse climates J. Seeley & R. Wordsworth
113. Global tropical cyclone precipitation scaling with sea surface temperature A. Stansfield & K. Reed
114. QBO-Like Oscillation in a Three-Dimensional Minimal Model Framework of the Stratosphere–Troposphere Coupled System H. Bui et al.
115. Riehl and Malkus Revisited: The Role of Cloud Radiative Effects M. Needham & D. Randall
116. Changes in the Tropical Lapse Rate due to Entrainment and Their Impact on Climate Sensitivity J. Bao et al.
117. Fine Vertical Resolution Radiative‐Convective Equilibrium Experiments: Roles of Turbulent Mixing on the High‐Cloud Response to Sea Surface Temperatures T. Ohno et al.
118. Tropical cirrus evolution in a kilometer-scale model with improved ice microphysics B. Gasparini et al.
119. Dependence of Climate Sensitivity on the Given Distribution of Relative Humidity S. Bourdin et al.
120. High clouds and higher sensitivity A. Voigt
121. Dissecting Anvil Cloud Response to Sea Surface Warming H. Beydoun et al.
122. A 1D RCE Study of Factors Affecting the Tropical Tropopause Layer and Surface Climate S. Dacie et al.
123. Convective Dynamics and the Response of Precipitation Extremes to Warming in Radiative–Convective Equilibrium T. Abbott et al.
124. The Elements of the Thermodynamic Structure of the Tropical Atmosphere J. BAO & B. STEVENS
125. Cloud‐Radiation Interactions and Their Contributions to Convective Self‐Aggregation K. Pope et al.