In this repository, we include the source codes for WRF microphysics parameterization used in the APJAS publication "Numerical errors in ice microphysics parameterizations and their effects on simulated regional climate" There are three WDM6 codes for simulations. The original WDM6 code (ORG) using parameter defined by Hong et al (2004), the revised WDM6 code (NEW) those revised by removing the numerical errors, and the additional WDM6 code (SEN) for sensitivity experiment adopting the column-shaped parameters. In supplement, several cloud-ice characteristics presented in the paper were induced in detail and compared with Hong et al (2004) and this study
© Copyright 2009 American Meteorological Society (AMS). Permission to use figures, tables, and brief...
The ability for meteorologists to predict icing events is severely limited due to the complexity of ...
International audienceIn the paper “Evaluation of cloud-resolving model intercomparison simulations ...
In this repository, we include the source codes for WRF microphysics parameterization used in the AP...
In this repository, we include the source codes for WRF microphysics parameterization used in the GM...
In this repository, we include the source codes for WRF microphysics parameterization used in the JA...
In this repository, we include the source codes used in the GSL publication "Quantifying the sensiti...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
Data from the Tropical Warm Pool International Cloud Experiment (TWP-ICE) were used to evaluate Weat...
This is a preliminary PDF of the author-produced manuscript that has been peer-reviewed and accepted...
Different reanalysis data and physical parameterization schemes for the Weather Research and Forecas...
These data are a set of 1yr simulations using the MIROC6-SPRINTARS global aerosol-climate model with...
Abstract The ice microphysical processes in the Weather Research and Forecasting (WRF) Double‐Moment...
Aerosols influence cloud and precipitation development in complex ways due to myriad feedbacks at a ...
© Copyright 2009 American Meteorological Society (AMS). Permission to use figures, tables, and brief...
The ability for meteorologists to predict icing events is severely limited due to the complexity of ...
International audienceIn the paper “Evaluation of cloud-resolving model intercomparison simulations ...
In this repository, we include the source codes for WRF microphysics parameterization used in the AP...
In this repository, we include the source codes for WRF microphysics parameterization used in the GM...
In this repository, we include the source codes for WRF microphysics parameterization used in the JA...
In this repository, we include the source codes used in the GSL publication "Quantifying the sensiti...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
Data from the Tropical Warm Pool International Cloud Experiment (TWP-ICE) were used to evaluate Weat...
This is a preliminary PDF of the author-produced manuscript that has been peer-reviewed and accepted...
Different reanalysis data and physical parameterization schemes for the Weather Research and Forecas...
These data are a set of 1yr simulations using the MIROC6-SPRINTARS global aerosol-climate model with...
Abstract The ice microphysical processes in the Weather Research and Forecasting (WRF) Double‐Moment...
Aerosols influence cloud and precipitation development in complex ways due to myriad feedbacks at a ...
© Copyright 2009 American Meteorological Society (AMS). Permission to use figures, tables, and brief...
The ability for meteorologists to predict icing events is severely limited due to the complexity of ...
International audienceIn the paper “Evaluation of cloud-resolving model intercomparison simulations ...