Universality in snowflake aggregation

C. D. Westbrook; R. C. Ball; P. R. Field; A. J. Heymsfield

doi:10.1029/2004GL020363

Universality in snowflake aggregation

C. D. Westbrook
, R. C. Ball
, P. R. Field
, A. J. Heymsfield

Dynamical and Physical Meteorology

Research output: Contribution to journal › Article › peer-review

74 Scopus citations

Abstract

Aggregation of ice crystals is a key process governing precipitation. Individual ice crystals exhibit considerable diversity of shape, and a wide range of physical processes could influence their aggregation; despite this we show that a simple computer model captures key features of aggregate shape and size distribution reported recently from cirrus clouds. The results prompt a new way to plot the experimental size distributions leading to remarkably good dynamical scaling. That scaling independently confirms that there is a single dominant aggregation mechanism at play, albeit our model (based on undeflected trajectories to contact) does not capture its form exactly.

Original language	English
Pages (from-to)	L15104 1-3
Journal	Geophysical Research Letters
Volume	31
Issue number	15
DOIs	https://doi.org/10.1029/2004GL020363
State	Published - Aug 16 2004

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10.1029/2004GL020363

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abstract = "Aggregation of ice crystals is a key process governing precipitation. Individual ice crystals exhibit considerable diversity of shape, and a wide range of physical processes could influence their aggregation; despite this we show that a simple computer model captures key features of aggregate shape and size distribution reported recently from cirrus clouds. The results prompt a new way to plot the experimental size distributions leading to remarkably good dynamical scaling. That scaling independently confirms that there is a single dominant aggregation mechanism at play, albeit our model (based on undeflected trajectories to contact) does not capture its form exactly.",

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AU - Heymsfield, A. J.

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AB - Aggregation of ice crystals is a key process governing precipitation. Individual ice crystals exhibit considerable diversity of shape, and a wide range of physical processes could influence their aggregation; despite this we show that a simple computer model captures key features of aggregate shape and size distribution reported recently from cirrus clouds. The results prompt a new way to plot the experimental size distributions leading to remarkably good dynamical scaling. That scaling independently confirms that there is a single dominant aggregation mechanism at play, albeit our model (based on undeflected trajectories to contact) does not capture its form exactly.

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JO - Geophysical Research Letters

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Universality in snowflake aggregation

Abstract

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