The Second Symposium on Cloud Physics at the American Meteorological Society Annual Meeting will take place on Jan 12-16th, 2025 in New Orleans, LA. We are organizing a session on Parameterization of Cloud Microphysics Across Scales and we welcome your participation of abstracts to make this an exciting and engaging session. Session abstract below.
For more information, see Second Symposium on Cloud Physics
We hope to see you in Baltimore in January. There should be plenty of clouds and lots of interesting sessions!
Abstracts are due August 15th, 2024.
Regards,
Andrew Gettelman, Pacific Northwest National Laboratory
Hugh Morrison, National Center for Atmospheric Research
Kaitlyn Loftus, Columbia University
Marcus van Lier-Walqui, Columbia University
Parameterization of cloud microphysics across scales
Cloud microphysics is critical for simulating weather and climate, being at the center of precipitation formation and cloud-radiative interactions. Representing microphysics in models requires parameterizations of hydrometeor populations, the processes by which hydrometeors evolve and interact, and their coupling with the model dynamics and thermodynamics. We invite presentations on all aspects of representing microphysics across different scales of modeling. Topics may include the development of new parameterization methods and evaluation using observations in key regimes that are important for weather and climate. We also invite presentations on new data driven methods such as machine learning and Bayesian methods for parameterization development, emulation and evaluation.
For more information, see Second Symposium on Cloud Physics
We hope to see you in Baltimore in January. There should be plenty of clouds and lots of interesting sessions!
Abstracts are due August 15th, 2024.
Regards,
Andrew Gettelman, Pacific Northwest National Laboratory
Hugh Morrison, National Center for Atmospheric Research
Kaitlyn Loftus, Columbia University
Marcus van Lier-Walqui, Columbia University
Parameterization of cloud microphysics across scales
Cloud microphysics is critical for simulating weather and climate, being at the center of precipitation formation and cloud-radiative interactions. Representing microphysics in models requires parameterizations of hydrometeor populations, the processes by which hydrometeors evolve and interact, and their coupling with the model dynamics and thermodynamics. We invite presentations on all aspects of representing microphysics across different scales of modeling. Topics may include the development of new parameterization methods and evaluation using observations in key regimes that are important for weather and climate. We also invite presentations on new data driven methods such as machine learning and Bayesian methods for parameterization development, emulation and evaluation.