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Experimental determination of the deposition coefficient of small cirrus-like ice crystals near −50°C

Several small ice particles were observed to grow and evaporate in a quadrupole electrodynamic levitation cell at temperatures between −40 and −60°C and variable supersaturation. The particle mass was traced throughout each experiment by analysis of the electrical (“springpoint”) boundaries for stab...

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Published in:	Geophysical research letters 2006-09, Vol.33 (17), p.n/a
Main Authors:	Magee, Nathan, Moyle, Alfred M., Lamb, Dennis
Format:	Article
Language:	English
Subjects:	Earth sciences Earth, ocean, space Exact sciences and technology
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container_title	Geophysical research letters
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creator	Magee, Nathan Moyle, Alfred M. Lamb, Dennis
description	Several small ice particles were observed to grow and evaporate in a quadrupole electrodynamic levitation cell at temperatures between −40 and −60°C and variable supersaturation. The particle mass was traced throughout each experiment by analysis of the electrical (“springpoint”) boundaries for stable levitation. Measured growth of each particle was compared with that calculated from a standard particle‐growth model. The small particle sizes and long durations of the experiments provided great sensitivity to the particle‐mean deposition coefficient (αm). Suitable agreement between the measured and modeled growth histories was obtainable only upon using very small deposition coefficients: e.g., 0.0045 < αm < 0.0075, with αm ∼ 0.006 being the most‐likely value for a representative particle growing at −50°C. This finding of such low deposition coefficients suggests that cirrus‐cloud simulations need to account for the strong influence that the surface‐kinetic resistance exerts on the vapor growth of ice at atmospherically low temperatures.
doi_str_mv	10.1029/2006GL026665
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subjects	Earth sciences Earth, ocean, space Exact sciences and technology
title	Experimental determination of the deposition coefficient of small cirrus-like ice crystals near −50°C
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