Add to ORKGWe introduce a three-dimensional, computationally feasible, mesoscopic model for snow crystal growth, based on diffusion of vapor, anisotropic attachment, and a semi-liquid boundary layer. Several case studies are presented that faithfully emulate a wide variety of physical snowflakes
A three-dimensional multiscale spatial model of snow with evolving microstructure is presented. Many...
We examine ice crystallization from liquid water and from water vapor, focusing on the underlying ph...
This site describes snow crystals and snowflakes. Although a common meteorological phenomenon, snow ...
International audienceSnowflake growth provides a fascinating example of spontaneous pattern formati...
WOS:000408118100010International audienceSimulating ice crystal growth is a major issue for meteorol...
Facetted growth of snow crystals leads to a rich diversity of forms, and exhibits a remarkable sixfo...
We describe a comprehensive model for the formation and morphological development of atmospheric ice...
I describe a semi-empirical molecular model of the surface attachment kinetics governing ice crystal...
We examine the physical mechanisms governing the formation of snow crystals, treating this problem a...
Abstract Snow crystals have a rich diversity of forms with striking hexagonal symmetry. The two-dime...
Snow crystals are intriguing because they exhibit both symmetry and remarkable diversity. Previous s...
International audienceStudy of the main mechanisms involved in the formation of ice crystals morphol...
Abstract. We present a new microscopic model of growth and sublimation (g/s) of ice crystals in the ...
I examine a variety of snow crystal growth measurements taken at a temperature of -5 C, as a functio...
A three-dimensional multiscale spatial model of snow with evolving microstructure is presented. Many...
A three-dimensional multiscale spatial model of snow with evolving microstructure is presented. Many...
We examine ice crystallization from liquid water and from water vapor, focusing on the underlying ph...
This site describes snow crystals and snowflakes. Although a common meteorological phenomenon, snow ...
International audienceSnowflake growth provides a fascinating example of spontaneous pattern formati...
WOS:000408118100010International audienceSimulating ice crystal growth is a major issue for meteorol...
Facetted growth of snow crystals leads to a rich diversity of forms, and exhibits a remarkable sixfo...
We describe a comprehensive model for the formation and morphological development of atmospheric ice...
I describe a semi-empirical molecular model of the surface attachment kinetics governing ice crystal...
We examine the physical mechanisms governing the formation of snow crystals, treating this problem a...
Abstract Snow crystals have a rich diversity of forms with striking hexagonal symmetry. The two-dime...
Snow crystals are intriguing because they exhibit both symmetry and remarkable diversity. Previous s...
International audienceStudy of the main mechanisms involved in the formation of ice crystals morphol...
Abstract. We present a new microscopic model of growth and sublimation (g/s) of ice crystals in the ...
I examine a variety of snow crystal growth measurements taken at a temperature of -5 C, as a functio...
A three-dimensional multiscale spatial model of snow with evolving microstructure is presented. Many...
A three-dimensional multiscale spatial model of snow with evolving microstructure is presented. Many...
We examine ice crystallization from liquid water and from water vapor, focusing on the underlying ph...
This site describes snow crystals and snowflakes. Although a common meteorological phenomenon, snow ...