Matthew Bailey
Desert Research Institute
32 Papers
173 Citations
Matthew Bailey is an academic researcher from Desert Research Institute. The author has contributed to research in topics: Ice crystals & Supersaturation. The author has an hindex of 14, co-authored 32 publications. Previous affiliations of Matthew Bailey include University of California, Los Angeles & University of Nevada, Reno.
Chat about Author
Papers
A Comprehensive Habit Diagram for Atmospheric Ice Crystals: Confirmation from the Laboratory, AIRS II, and Other Field Studies
Matthew Bailey,John Hallett +1 more
TL;DR: This article showed that the ice crystal habit at −20°C is platelike, extending to −40°C, and not columnar as indicated in many habit diagrams found in atmospheric science journals and texts.
512
Growth Rates and Habits of Ice Crystals between −20° and −70°C
Matthew Bailey,John Hallett +1 more
TL;DR: In this paper, a laboratory study of ice crystal growth characteristics at temperatures between −20° and −70°C has been performed at ice supersaturations and pressures comparable with those in the atmosphere using a horizontal static diffusion chamber.
243
A Review of Ice Particle Shapes in Cirrus formed In Situ and in Anvils
R. P. Lawson,Sarah Woods,Eric J. Jensen,Ehsan Erfani,Ehsan Erfani,Colin Gurganus,Martin Gallagher,Paul Connolly,James A. Whiteway,Anthony J. Baran,Anthony J. Baran,Peter T. May,Andrew J. Heymsfield,Carl G. Schmitt,Greg M. McFarquhar,Junshik Um,Alain Protat,Matthew Bailey,Sara Lance,Andreas Muehlbauer,Jeffrey L. Stith,Alexei Korolev,Owen B. Toon,Martina Krämer +23 more
TL;DR: In this paper, the results from 22 airborne field campaigns, including more than 10 million high-resolution particle images collected in cirrus formed in situ and in convective anvils, are interpreted in terms of particle shapes and their potential impact on radiative transfer.
Nucleation effects on the habit of vapour grown ice crystals from −18 to −42°C
Matthew Bailey,John Hallett +1 more
TL;DR: In this paper, a review of past laboratory experiments and recent in situ observations reveals good agreement between laboratory and field observations when the effects of nucleating methods and growth times are taken into account.
117
A brief review of the problem of lightning initiation and a hypothesis of initial lightning leader formation
TL;DR: In this article, a combination of previously hypothesized lightning initiation mechanisms as a means for local intensification of the thundercloud electric field, and a process for the formation of a hot lightning leader channel that is analogous to the space leader phase of the laboratory negative stepped leader.
93