Scanning electron microscopy and molecular dynamics of surfaces of growing and ablating hexagonal ice crystals

Authors

Steven Neshyba, University of Puget SoundFollow
Pavel Jungwirth
Martina Roeselova
Erin Nugent

Document Type

Article

Publication Date

2010

Publication Title

Atmospheric Chemistry and Physics

Department

Chemistry

Abstract

We present the first clearly resolved observations of surfaces of growing and ablating hexagonal ice crystals using variable-pressure scanning electron microscopy. The ice surface develops trans-prismatic strands, separated from one another by distances of 5–10 ?m. The strands are present at a wide range of supersaturations, but are most pronounced at temperatures near the frost point. Pyramidal facets consistent with Miller-Bravais indices of 1011, and possibly also 2021, are associated with ice growth under these conditions. A molecular-dynamics model of a free-standing ice I_h nanocolumn containing 8400 water molecules does not develop trans-prismatic strands, suggesting these features originate at larger spatial or temporal scales. The possible relevance of these surface features to cirrus ice is discussed.

Volume

10

Issue

6

pp.

2927-2935

ISSN

1680-7316

DOI

http://dx.doi.org/10.5194/acp-10-2927-2010

WorldCat Link

http://worldcat.org/oclc/606867497

Provider Link

http://www.atmos-chem-phys.net/10/2927/2010/acp-10-2927-2010.html

Citation

Pfalzgraff W.C., Hulscher R.M., and Neshyba S.P. 2010. "Scanning electron microscopy and molecular dynamics of surfaces of growing and ablating hexagonal ice crystals". Atmospheric Chemistry and Physics. 10 (6): 2927-2935.