http://bolin.su.se/data/ascos-ceilometer Matthew Shupe Ceilometer backscatter and cloud base height measurements from the high-Arctic ASCOS expedition 2008 Bolin Centre Database 2018 Datafile Atmosphere Clouds ASCOS Meteorology High Arctic Arctic boundary layer Arctic clouds Cloud-base heights Cloud fractions Earth science > Atmosphere Michael Tjernström 2018-10-16T14:24:39+00:00 English 1.0 None <p>This data set includes measurements from a ground-based, vertically-pointing, Vaisala 25K ceilometer. Files include profiles of backscatter, cloud base heights for up to three layers, and the vertical visibility. All files are in netCDF format and thus contain data set and field-specific attributes in the files.</p> <p>This is a large data set; please access the data at:<br /> <a href="ftp://ftp1.esrl.noaa.gov/psd3/cruises/ASCOS_2008/ODEN/ceilometer/Raw/ascvceil25k.zip" title="ftp://ftp1.esrl.noaa.gov/psd3/cruises/ASCOS_2008/ODEN/ceilometer/Raw/ascvceil25k.zip">ftp://ftp1.esrl.noaa.gov/psd3/cruises/ASCOS_2008/ODEN/ceilometer/Raw/asc...</a></p> The height to the lowest cloud base, or to more than one cloud base in the case when the lowest cloud layer does not cover the whole sky, was measured by three so-called laser ceilometers. The laser pulse is essentially only reflected in cloud particles and preferentially by liquid water droplets, and is not sensitive to precipitation. Cloud base heights are given from the surface to the level into the cloud base where the backscatter of the laser light reaches a predetermined level; hence ceilometers from different manufacturers may show slightly different results. Cloud fraction are usually reported in octas; 8 octas is completely cloudy. When the attenuation of the laser beam reaches a threshold, like in a dense fog, it switches to reporting “vertical visibility”, rather than cloud-base height, and the cloud fraction is set to 9. Note that cloud fraction < 9 does not imply absence of fog; the laser beam may on occasion burn through a thin fog layer and detect a higher cloud base aloft. In addition to the laser ceilometers, a so-called “all-sky cloud imager” ASCOS was also deployed. This consists of a polished half-spherical dome mirror with a camera on top looking down; the camera takes images of the dome, which reflects the whole sky (except the little angle where the camera itself blocks the view). Interpretations of the images results in estimates of cloud type and cloud fraction. Data may be lost if dew or precipitation contaminates the dome. One ceilometer was operated as part of Oden’s weather station, located on the deck on 7th deck (~25 m above water) on the starboard side. This system was operated through the whole expedition. A second ceilometer (NOAA) was located by the cloud-radar container, on the roof of Oden’s foredeck lab. This system additionally recorded the actual backscatter profile, and hence serves as a “poor-man’s lidar”. A third ceilometer (FMI) was located on 7th deck, on the back of the starboard side. This system was only operated during the ice drift. The “all-sky camera was mounted on the roof of the port container on the 7th deck.<p>NOAA is the National Oceanic and Atmospheric Administration.</p><p>Original address: <a href="http://www.ascos.se/index.php?q=node/262">http://www.ascos.se/index.php?q=node/262</a><br> </p> </p>