I'm not into cloud physics in any way, which is why I ask the question, but I'm was once well acquainted with supercooling and the need for
heterogeneous nucleation in most things material.
There are different modes of
heterogeneous nucleation of ice (Vali, 1985).
Our methodology relies on the strong shaping effects of a polystyrene nanosphere monolith template and a double - solvent — induced
heterogeneous nucleation approach.
Conversely, quick cooling of an alloy made of a single crystal type forming a hard alloy proceeds via
the heterogeneous nucleation into a martensitic - style structure.
Not exact matches
Hoose, C. et al. (2010): A classical - theory - based parameterization of
heterogeneous ice
nucleation by mineral dust, soot, and biological particles in a global climate model, J. Atmos.
Surface - area - dependent parameterizations of
heterogeneous ice
nucleation are discussed.
Heterogeneous ice
nucleation on atmospheric aerosols: a review of results from laboratory experiments / C. Hoose & O. Mohler Institute for Meteorology and Climate Research — Atmospheric Aerosol Research, Karlsruhe Institute of Technology, Karlsruhe, Germany / Published: 29 October 2012 Abstract: A small subset of the atmospheric aerosol population has the ability to induce ice formation at conditions under which ice would not form without them (heteroge - neous ice
nucleation).
Magnetic control of
heterogeneous ice
nucleation with nanophase magnetite: Biophysical and agricultural implications