In situ measurements of Arctic clouds frequently show that ice crystal number concentrations (ICNCs) are much higher than the number of available ice-nucleating particles (INPs), suggesting that secondary ice production (SIP) may be active. Here we use a Lagrangian parcel model (LPM) and a large-eddy simulation (LES) to investigate the impact of three SIP mechanisms (rime splintering, break-up from ice–ice collisions and drop shattering) on a summer Arctic stratocumulus case observed during the Aerosol-Cloud Coupling And Climate Interactions in the Arctic (ACCACIA) campaign. Primary ice alone cannot explain the observed ICNCs, and drop shattering is ineffective in the examined conditions. Only the combination of both rime splintering (RS) a...
This study investigates the interactions between cloud dynamics and aerosols in idealized large-eddy...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
The correct representation of Antarctic clouds in atmospheric models is crucial for accurate project...
In situ measurements of Arctic clouds frequently show that ice crystal number concentrations (ICNCs)...
For decades, measured ice crystal number concentrations have been found to be orders of magnitude hi...
Atmospheric models often fail to correctly reproduce the microphysical structure of Arctic mixed-pha...
Disparities between the measured concentrations of ice-nucleating particles (INPs) and in-cloud ice ...
We provide the first systematic study of ice formation in idealised shallow clouds from collisions o...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
The Arctic is very susceptible to climate change and thus is warming much faster than the rest of th...
Arctic clouds are among the largest sources of uncertainty in predictions of Arctic weather and clim...
Secondary ice production (SIP) plays a key role in the formation of ice particles in tropospheric cl...
This study uses large eddy simulations to test the sensitivity of single-layer mixed-phase stratocum...
Atmospheric models often fail to correctly reproduce the microphysical structure of Arctic mixed-pha...
In mixed-phase clouds (MPCs), supercooled liquid water and ice particles can co-exist at subzero tem...
This study investigates the interactions between cloud dynamics and aerosols in idealized large-eddy...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
The correct representation of Antarctic clouds in atmospheric models is crucial for accurate project...
In situ measurements of Arctic clouds frequently show that ice crystal number concentrations (ICNCs)...
For decades, measured ice crystal number concentrations have been found to be orders of magnitude hi...
Atmospheric models often fail to correctly reproduce the microphysical structure of Arctic mixed-pha...
Disparities between the measured concentrations of ice-nucleating particles (INPs) and in-cloud ice ...
We provide the first systematic study of ice formation in idealised shallow clouds from collisions o...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
The Arctic is very susceptible to climate change and thus is warming much faster than the rest of th...
Arctic clouds are among the largest sources of uncertainty in predictions of Arctic weather and clim...
Secondary ice production (SIP) plays a key role in the formation of ice particles in tropospheric cl...
This study uses large eddy simulations to test the sensitivity of single-layer mixed-phase stratocum...
Atmospheric models often fail to correctly reproduce the microphysical structure of Arctic mixed-pha...
In mixed-phase clouds (MPCs), supercooled liquid water and ice particles can co-exist at subzero tem...
This study investigates the interactions between cloud dynamics and aerosols in idealized large-eddy...
Secondary ice production via processes like rime splintering, frozen droplet shattering, and breakup...
The correct representation of Antarctic clouds in atmospheric models is crucial for accurate project...