Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup upon ice hydrometeor collision have been proposed to explain discrepancies between in-cloud ice crystal and ice-nucleating particle numbers. To understand the impact of this additional ice crystal generation on surface precipitation, we present one of the first studies to implement frozen droplet shattering and ice–ice collisional breakup parameterizations in a mesoscale model. We simulate a cold frontal rainband from the Aerosol Properties, PRocesses, And InfluenceS on the Earth\u27s Climate campaign and investigate the impact of the new parameterizations on the simulated ice crystal number concentrations (ICNC) and precipitation. Near the ...
Ground based and airborne observations of orographic mixed-phase clouds (MPCs) forming over mountain...
Measured ice crystal concentrations in natural clouds at modest supercooling (temperature ~>-10°C) a...
International audienceAbstract. Observations of orographic mixed-phase clouds (MPCs) have long shown...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
Disparities between the measured concentrations of ice-nucleating particles (INPs) and in-cloud ice ...
In mixed-phase clouds (MPCs), supercooled liquid water and ice particles can co-exist at subzero tem...
We provide the first systematic study of ice formation in idealised shallow clouds from collisions o...
The discrepancy between the observed concentration of ice nucleating particles (INPs) and the ice cr...
In model studies of aerosol-dependent immersion freezing in clouds, a common assumption is that each...
The discrepancy between the observed concentration of ice-nucleating particles (INPs) and ice crysta...
In-cloud measurements of ice crystal number concentration can be orders of magnitude higher than the...
In situ measurements of Arctic clouds frequently show that ice crystal number concentrations (ICNCs)...
Secondary ice production (SIP) plays a key role in the formation of ice particles in tropospheric cl...
Ground based and airborne observations of orographic mixed-phase clouds (MPCs) forming over mountain...
Measured ice crystal concentrations in natural clouds at modest supercooling (temperature ~>-10°C) a...
International audienceAbstract. Observations of orographic mixed-phase clouds (MPCs) have long shown...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
Disparities between the measured concentrations of ice-nucleating particles (INPs) and in-cloud ice ...
In mixed-phase clouds (MPCs), supercooled liquid water and ice particles can co-exist at subzero tem...
We provide the first systematic study of ice formation in idealised shallow clouds from collisions o...
The discrepancy between the observed concentration of ice nucleating particles (INPs) and the ice cr...
In model studies of aerosol-dependent immersion freezing in clouds, a common assumption is that each...
The discrepancy between the observed concentration of ice-nucleating particles (INPs) and ice crysta...
In-cloud measurements of ice crystal number concentration can be orders of magnitude higher than the...
In situ measurements of Arctic clouds frequently show that ice crystal number concentrations (ICNCs)...
Secondary ice production (SIP) plays a key role in the formation of ice particles in tropospheric cl...
Ground based and airborne observations of orographic mixed-phase clouds (MPCs) forming over mountain...
Measured ice crystal concentrations in natural clouds at modest supercooling (temperature ~>-10°C) a...
International audienceAbstract. Observations of orographic mixed-phase clouds (MPCs) have long shown...