Stephen A. Cohn scite author profile

[1] A field campaign designed to investigate the second indirect aerosol effect (reduction of precipitation by anthropogenic aerosols which produce more numerous and smaller cloud droplets) was conducted during winter in the northern Rocky Mountains of Colorado. Combining remote sensing and in-situ mountain-top measurements it was possible to show higher concentrations of anthropogenic aerosols ($1 mg m À3) altered the microphysics of the lower orographic feeder cloud to the extent that the snow particle rime growth process was inhibited, or completely shut off, resulting in lower snow water equivalent precipitation rates.

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Radar Measurements of Turbulent Eddy Dissipation Rate in the Troposphere: A Comparison of Techniques

Cohn

1995

J. Atmos. Oceanic Technol.

117

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The Concordiasi Project in Antarctica

Rabier¹,

Bouchard²,

Brun³

et al. 2010

Bull. Amer. Meteor. Soc.

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International audienceThe Concordiasi project is making innovative observations of the atmosphere above Antarctica. The most important goals of the Concordiasi are as follows: 1. To enhance the accuracy of weather prediction and climate records in Antarctica through the assimilation of in situ and satellite data, with an emphasis on data provided by hyperspectral infrared sounders. The focus is on clouds, precipitation, and the mass budget of the ice sheets. The improvements in dynamical model analyses and forecasts will be used in chemical-transport models that describe the links between the polar vortex dynamics and ozone depletion, and to advance the understanding of the Earth system by examining the interactions between Antarctica and lower latitudes. 2. To improve our understanding of microphysical and dynamical processes controlling the polar ozone, by providing the first quasi-Lagrangian observations of stratospheric ozone and particles, in addition to an improved characterization of the 3D polar vortex dynamics. Techniques for assimilating these Lagrangian observations are being developed. A major Concordiasi component is a field experiment during the austral springs of 2008-10. The field activities in 2010 are based on a constellation of up to 18 long-duration stratospheric super-pressure balloons (SPBs) deployed from the McMurdo station. Six of these balloons will carry GPS receivers and in situ instruments measuring temperature, pressure, ozone, and particles. Twelve of the balloons will release drop-sondes on demand for measuring atmospheric parameters. Lastly, radiosounding measurements are collected at various sites, including the Concordia station

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The Terrain-Induced Rotor Experiment

Grubı̆sı́c¹,

Doyle²,

Kuettner³

et al. 2008

Bull. Amer. Meteor. Soc.

185

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Stephen A. Cohn

Boundary Layer Height and Entrainment Zone Thickness Measured by Lidars and Wind-Profiling Radars

Mountaintop and radar measurements of anthropogenic aerosol effects on snow growth and snowfall rate

Radar Measurements of Turbulent Eddy Dissipation Rate in the Troposphere: A Comparison of Techniques

The Concordiasi Project in Antarctica

The Terrain-Induced Rotor Experiment

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