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contributor authorDeMott, Paul J.
contributor authorMöhler, Ottmar
contributor authorStetzer, Olaf
contributor authorVali, Gabor
contributor authorLevin, Zev
contributor authorPetters, Markus D.
contributor authorMurakami, Masataka
contributor authorLeisner, Thomas
contributor authorBundke, Ulrich
contributor authorKlein, Holger
contributor authorKanji, Zamin A.
contributor authorCotton, Richard
contributor authorJones, Hazel
contributor authorBenz, Stefan
contributor authorBrinkmann, Maren
contributor authorRzesanke, Daniel
contributor authorSaathoff, Harald
contributor authorNicolet, Mathieu
contributor authorSaito, Atsushi
contributor authorNillius, Bjorn
contributor authorBingemer, Heinz
contributor authorAbbatt, Jonathan
contributor authorArdon, Karin
contributor authorGanor, Eli
contributor authorGeorgakopoulos, Dimitrios G.
contributor authorSaunders, Clive
date accessioned2017-06-09T16:39:02Z
date available2017-06-09T16:39:02Z
date copyright2011/12/01
date issued2011
identifier issn0003-0007
identifier otherams-71575.pdf
identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4213482
description abstractding cloud and precipitation responses to variations in atmospheric aerosols remains an important research topic for improving the prediction of climate. Knowledge is most uncertain, and the potential impact on climate is largest with regard to how aerosols impact ice formation in clouds. In this paper, we show that research on atmospheric ice nucleation, including the development of new measurement systems, is occurring at a renewed and historically unparalleled level. A historical perspective is provided on the methods and challenges of measuring ice nuclei, and the various factors that led to a lull in research efforts during a nearly 20-yr period centered about 30 yr ago. Workshops played a major role in defining critical needs for improving measurements at that time and helped to guide renewed efforts. Workshops were recently revived for evaluating present research progress. We argue that encouraging progress has been made in the consistency of measurements using the present generation of ice nucleation instruments. Through comparison to laboratory cloud simulations, these ice nuclei measurements have provided increased confidence in our ability to quantify primary ice formation by atmospheric aerosols.
publisherAmerican Meteorological Society
titleResurgence in Ice Nuclei Measurement Research
typeJournal Paper
journal volume92
journal issue12
journal titleBulletin of the American Meteorological Society
identifier doi10.1175/2011BAMS3119.1
journal fristpage1623
journal lastpage1635
treeBulletin of the American Meteorological Society:;2011:;volume( 092 ):;issue: 012
contenttypeFulltext


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