Snow is a fascinating high-temperature material and relevant for applications in glaciology, hydrology, atmospheric sciences, polar climatology, remote sensing and natural hazards. This course introduces key concepts and underlying physical principles of snow, ranging from individual crystals to polar ice sheets.
The course aims at a cross-disciplinary overview about the phenomenology of relevant processes in the snow cover, traditional and advanced experimental methods for snow measurements and theoretical foundations with key equations required for snow modeling.
Topics include: snow formation, crystal growth, snow microstructure, metamorphism, ice physics, snow mechanics, heat and mass transport in the snowcover, surface energy balance, snow models, wind transport, snow chemistry, electromagnetic properties, experimental techniques.
Lecture notes and selected publications.
Voraussetzungen / Besonderes
We offer a voluntary field excursion to Davos on Saturday, 14 March 2015 (if there is sufficient interest). During the excursion the students will conduct snow measurements by themselves in the field and visit the cold laboratories at SLF, Davos.
Information zur Leistungskontrolle (gültig bis die Lerneinheit neu gelesen wird)