<p>In the atmosphere, cloud droplets can remain in a supercooled liquid phase at temperatures as low as -40 °C. Above this temperature, cloud droplets freeze via heterogeneous ice nucleation whereby a rare and poorly understood subset of atmospheric particles catalyze the ice phase transition. As the phase state of clouds is critical in determining their radiative properties and lifetime, deficiencies in our understanding of heterogeneous ice nucleation poses a large uncertainty on our efforts to predict human induced global climate change. Experimental challenges in properly simulating particle-induced freezing processes under atmospherically relevant conditions have largely contributed to the absence of a well-established model and parame...
This paper extends previous work on the theory of heterogenous ice nucleation. The goals of this ana...
Ice formation largely influences the properties of clouds and hence it has an important impact on we...
An ice nucleation parameterization based on classical nucleation theory, with aerosol-specific param...
Ice nucleation occurs throughout the atmosphere. Some atmospheric ice particles are formed through n...
Based on the outcome of laboratory results, new particle-dependent parameterizations of eterogeneous...
Ice particle formation in tropospheric clouds significantly changes cloud radiative and microphysica...
In their fourth assessment report, the Intergovernmental Panel on Climate Change points out the infl...
Heterogeneous ice nucleation remains one of the outstanding problems in cloud physics and atmospher...
Mixed-phase clouds contain both liquid and ice particles. They have important roles in weather and c...
Some biological particles, such as Snomax, are very active ice nucleating particles, inducing heter...
In many clouds, the formation of ice requires the presence of particles capable of nucleating ice. I...
Droplet freezing techniques (DFTs) have been used for half a century to measure the concentration of...
This study presents a comprehensive ice cloud formation parameterization that computes the ice cryst...
The new theory of ice nucleation by heterogeneous freezing of deliquescent mixed cloud condensation ...
The indirect aerosol effect contributes to major uncertainties in determining the radiation budget o...
This paper extends previous work on the theory of heterogenous ice nucleation. The goals of this ana...
Ice formation largely influences the properties of clouds and hence it has an important impact on we...
An ice nucleation parameterization based on classical nucleation theory, with aerosol-specific param...
Ice nucleation occurs throughout the atmosphere. Some atmospheric ice particles are formed through n...
Based on the outcome of laboratory results, new particle-dependent parameterizations of eterogeneous...
Ice particle formation in tropospheric clouds significantly changes cloud radiative and microphysica...
In their fourth assessment report, the Intergovernmental Panel on Climate Change points out the infl...
Heterogeneous ice nucleation remains one of the outstanding problems in cloud physics and atmospher...
Mixed-phase clouds contain both liquid and ice particles. They have important roles in weather and c...
Some biological particles, such as Snomax, are very active ice nucleating particles, inducing heter...
In many clouds, the formation of ice requires the presence of particles capable of nucleating ice. I...
Droplet freezing techniques (DFTs) have been used for half a century to measure the concentration of...
This study presents a comprehensive ice cloud formation parameterization that computes the ice cryst...
The new theory of ice nucleation by heterogeneous freezing of deliquescent mixed cloud condensation ...
The indirect aerosol effect contributes to major uncertainties in determining the radiation budget o...
This paper extends previous work on the theory of heterogenous ice nucleation. The goals of this ana...
Ice formation largely influences the properties of clouds and hence it has an important impact on we...
An ice nucleation parameterization based on classical nucleation theory, with aerosol-specific param...