Add to ORKGInternational audienceWe investigate theoretical, laboratory, and atmospheric evidence for a recently proposed hypothesis: homogeneous ice nucleation initiates at the surface, not in the volume, of supercooled water drops. Using existing thermodynamic arguments, laboratory experiments, and atmospheric data, we conclude that ice embryo formation at the surface cannot be confirmed or disregarded. Ice nucleation rates measured as a function of drop size in an air ambient could help distinguish between volume and surface nucleation rates
Homogeneous nucleation of ice in supercooled water droplets is a stochastic process. In its classica...
Liquid water can persist in a supercooled state to below 238 K in the Earth’s atmosphere, a temperat...
Laboratory measurements at the AIDA cloud chamber and airborne in situ observations suggest that the...
International audienceWe investigate theoretical, laboratory, and atmospheric evidence for a recentl...
International audienceWe report on measurements of the rate of homogeneous ice nucleation in superco...
The homogeneous freezing of water is of fundamental importance to a number of fields, including that...
The formation of ice in clouds can occur through primary processes, either homogeneously or heteroge...
In this work a new theory of nucleation is developed and used to investigate the effect of water act...
International audienceIn a recent published paper Knopf et a1. (2002) have suggested that the homoge...
The homogeneous freezing of water is of fundamental importance to a number of fields, including that...
We report laboratory observations of higher freezing temperatures when an ice-forming nucleus is nea...
Heterogeneous ice nucleation initiated by particles immersed within droplets is likely the main pat...
Heterogeneous ice nucleation initiated by particles immersed within droplets is likely the main path...
understanding ice formation from supercooled water on surfaces is a problem of fundamental importanc...
[1] Ice formation in atmospheric clouds is crucial to our understanding of precipitation and cloud r...
Homogeneous nucleation of ice in supercooled water droplets is a stochastic process. In its classica...
Liquid water can persist in a supercooled state to below 238 K in the Earth’s atmosphere, a temperat...
Laboratory measurements at the AIDA cloud chamber and airborne in situ observations suggest that the...
International audienceWe investigate theoretical, laboratory, and atmospheric evidence for a recentl...
International audienceWe report on measurements of the rate of homogeneous ice nucleation in superco...
The homogeneous freezing of water is of fundamental importance to a number of fields, including that...
The formation of ice in clouds can occur through primary processes, either homogeneously or heteroge...
In this work a new theory of nucleation is developed and used to investigate the effect of water act...
International audienceIn a recent published paper Knopf et a1. (2002) have suggested that the homoge...
The homogeneous freezing of water is of fundamental importance to a number of fields, including that...
We report laboratory observations of higher freezing temperatures when an ice-forming nucleus is nea...
Heterogeneous ice nucleation initiated by particles immersed within droplets is likely the main pat...
Heterogeneous ice nucleation initiated by particles immersed within droplets is likely the main path...
understanding ice formation from supercooled water on surfaces is a problem of fundamental importanc...
[1] Ice formation in atmospheric clouds is crucial to our understanding of precipitation and cloud r...
Homogeneous nucleation of ice in supercooled water droplets is a stochastic process. In its classica...
Liquid water can persist in a supercooled state to below 238 K in the Earth’s atmosphere, a temperat...
Laboratory measurements at the AIDA cloud chamber and airborne in situ observations suggest that the...