Publication

Back to overview

In situ characterization of mixed phase clouds using the Small Ice Detector and the Particle Phase Discriminator

Type of publication Peer-reviewed
Publikationsform Original article (peer-reviewed)
Author Vochezer P., Jarvinen E., Wagner R., Kupiszewski P., Leisner T., Schnaiter M.,
Project Beitrag an den Unterhalt und Betrieb der Hochalpinen Forschungsstationen Jungfraujoch und Gornergrat, 2015-2017
Show all

Original article (peer-reviewed)

Journal Atmospheric Measurement Techniques
Volume (Issue) 9
Page(s) 159 - 177
Title of proceedings Atmospheric Measurement Techniques
DOI 10.5194/amt-9-159-2016

Open Access

URL http://dx.doi.org/10.5194/amt-9-159-2016
Type of Open Access Publisher (Gold Open Access)

Abstract

Mixed phase clouds (MPCs) represent a great source of uncertainty for both climate predictions and weather forecasts. In particular, there is still a lack of understanding on how ice forms in these clouds. In this work we present a technique to analyze in situ measurements of MPCs performed with the latest instruments from the Small Ice Detector family. These instruments record high-resolution scattering patterns of individual small cloud particles. For the analysis of the scattering patterns we developed an algorithm that can discriminate the phase of the cloud particles. In the case of a droplet, a Mie solution is fitted to the recorded pattern and the size of the corresponding particle is obtained, which allows for a size calibration of the instrument. In the case of an ice particle, its shape is deduced from the scattering pattern. We apply our data analysis method to measurements from three distinct MPC types. The results from laboratory measurements demonstrate that our technique can discriminate between droplets and ice particles in the same optical size range. This ability was verified by measurements at a mountain top station where we found an alternation of liquid- and ice-dominated cloud regions. The analysis of results from aircraft-based measurements illustrates the ice detection threshold of the technique.
-