original ) (raw )Intercomparison of model simulations of mixed-phase clouds observed during the ARM Mixed-Phase Arctic Cloud Experiment. II: Multilayer cloud
Greg McFarquhar , Yali Luo
Quarterly Journal of the Royal Meteorological Society, 2009
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Arctic Mixed-Phase Clouds Simulated by a Cloud-Resolving Model: Comparison with ARM Observations and Sensitivity to Microphysics Parameterizations
Kuan-man Xu
Journal of the Atmospheric Sciences, 2008
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Cloud condensation nuclei as a modulator of ice processes in Arctic mixed-phase clouds
Graham Feingold
Atmospheric Chemistry and Physics, 2011
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Intercomparison of cloud model simulations of Arctic mixed-phase boundary layer clouds observed during SHEBA/FIRE-ACE
Paquita Zuidema
Journal of Advances in Modeling Earth Systems, 2011
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Small-scale structure of thermodynamic phase in Arctic mixed-phase clouds observed by airborne remote sensing during a cold air outbreak and a warm air advection event
Manfred Wendisch
Atmospheric Chemistry and Physics, 2020
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A common microphysical structure for midlevel mixed phase clouds in the mid-latitudes: Results from the Cloud Layer Experiment (CLEX-9)
Thomas H Vonder Haar
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The relative impact of cloud condensation nuclei and ice nucleating particle concentrations on phase partitioning in Arctic mixed-phase stratocumulus clouds
Gijs de Boer
Atmospheric Chemistry and Physics
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Cloud Resolving Simulations of Mixed-Phase Arctic Stratus Observed during BASE: Sensitivity to Concentration of Ice Crystals and Large-Scale Heat and Moisture Advection
judith curry
Journal of the Atmospheric Sciences, 2000
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Dynamical and Microphysical Characteristics of Arctic Clouds during BASE
ismail gultepe
Journal of Climate, 2000
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Simulating mixed-phase Arctic stratus clouds: sensitivity to ice initiation mechanisms
Igor Sednev
Atmospheric Chemistry and Physics, 2009
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Cloud and boundary layer interactions over the Arctic sea ice in late summer
Michael Tjernström
Atmospheric Chemistry and Physics, 2013
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Exploratory cloud-resolving simulations of boundary-layer Arctic stratus clouds
Graham Feingold
Atmospheric Research, 1998
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Sensitivity of M-PACE Mixed-Phase Stratocumulus to Cloud Condensation and Ice Nuclei in a Mesoscale Model with Two-moment bulk Cloud Microphysics
Greg McFarquhar
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Effects from Time Dependence of Ice Nucleus Activity for Contrasting Cloud Types
Akash Deshmukh
Journal of the Atmospheric Sciences
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Dynamical Response of an Arctic Mixed‐Phase Cloud to Ice Precipitation and Downwelling Longwave Radiation From an Upper‐Level Cloud
Mariko Oue
Journal of Geophysical Research: Atmospheres, 2020
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Sensitivity of modeled arctic mixed-phase stratocumulus to cloud condensation and ice nuclei over regionally varying surface conditions
Greg McFarquhar
Journal of Geophysical Research: Atmospheres, 2008
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Arctic Mixed-Phase Clouds: Observations and Modeling Challenges
Gijs de Boer
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Numerical Simulation of Effects of Cloud Top Temperatures and Generating Cells on Secondary Ice Production in Stratiform Clouds with a Detailed Microphysical Model
Jiefan Yang
Atmospheric and Oceanic Science Letters, 2012
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Influence of parameterized ice habit on simulated mixed phase Arctic clouds
Alexander Avramov
Journal of Geophysical Research, 2010
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Cloud resolving simulations of Arctic stratus
Tamir Reisin , William Cotton
Atmospheric Research, 1999
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Microphysical and optical properties of Arctic mixed-phase clouds. The 9 April 2007 case study
Manfred Wendisch
Atmospheric Chemistry and Physics, 2009
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The Sensitivity of Springtime Arctic Mixed-Phase Stratocumulus Clouds to Surface-Layer and Cloud-Top Inversion-Layer Moisture Sources
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Journal of the Atmospheric Sciences, 2014
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The Impact of CCN Concentrations on the Thermodynamic and Turbulent State of Arctic Mixed-Phase Clouds
Stephan Mertes
Atmospheric Chemistry and Physics Discussions
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P. 2.26 A Study of Wintertime Mixed-phase Clouds over Land Using Satellite and Aircraft Observations
Stanley Kidder
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Arctic Mixed-Phase Stratiform Cloud Properties from Multiple Years of Surface-Based Measurements at Two High-Latitude Locations
Gijs de Boer
Journal of the Atmospheric Sciences, 2009
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Processes that generate and deplete liquid water and snow in thin midlevel mixed-phase clouds
Jianguo Niu
Journal of Geophysical Research, 2009
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Factors Controlling the Properties of Multi-Phase Arctic Stratocumulus Clouds
Igor Sednev
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A comparison between CloudSat and aircraft data for a multilayer, mixed phase cloud system during the Canadian CloudSat-CALIPSO Validation Project
Mengistu Wolde
Journal of Geophysical Research, 2008
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Characterization of Mixed-Phase Clouds During Mixed-Phase Arctic Cloud Experiment from Satellite, Ground-Based, and In-Situ Data
Patrick Minnis
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Resilience of persistent Arctic mixed-phase clouds
Gijs de Boer , Kara Sulia
Nature Geoscience, 2011
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