Atmospheric ice‐nucleating particles (INPs) play a critical role in cloud freezing processes,
with important implications for precipitation formation and cloud radiative properties, and …

Most atmospheric motions of different spatial scales and precipitation are closely related to
phase transitions in clouds. The continuously increasing resolution of large‐scale and …

The Arctic region is particularly sensitive to climate change. Mixed-phase clouds, comprising
both ice and supercooled liquid water, have a large impact on radiative fluxes in the Arctic …

Mixed‐phase clouds (clouds that consist of both cloud droplets and ice crystals) are
frequently present in the Earth's atmosphere and influence the Earth's energy budget …

Large‐eddy simulations of mixed‐phase Arctic clouds by 11 different models are analyzed
with the goal of improving understanding and model representation of processes controlling …

We perform a model intercomparison of summertime high Arctic (> 80∘ N) clouds observed
during the 2008 Arctic Summer Cloud Ocean Study (ASCOS) campaign, when observed …

Predicting Ice Shape Evolution in a Bulk Microphysics Model in: Journal of the Atmospheric
Sciences Volume 74 Issue 6 (2017) Jump to Content Jump to Main Navigation Logo Logo Logo …

A Method for Adaptive Habit Prediction in Bulk Microphysical Models. Part I: Theoretical
Development in: Journal of the Atmospheric Sciences Volume 70 Issue 2 (2013) Jump to …

An intercomparison of six cloud‐resolving and large‐eddy simulation models is presented.
This case study is based on observations of a persistent mixed‐phase boundary layer cloud …

This study aims to characterize the microphysical and optical properties of ice crystals and
supercooled liquid droplets within low-level Arctic mixed-phase clouds (MPCs). We …