Measurement systems available at supersite M (instrument type, operating institution): Windlidar (WiLi), Leibniz Institute for Tropospheric Research, Leipzig, Germany. Multi-Wavelength Lidar, Leibniz
ADMIRARI (ADvanced MIcrowave RAdiometer for Rain Identification) quality controlled brightness temperatures at fixed elevation angle of 30 degrees for 6 channels (3 frequencies at 10.65, 21.00 and 36.5
ADMIRARI (ADvanced MIcrowave RAdiometer for Rain Identification) quality controlled brightness temperatures at fixed azimuth angle for 6 channels (3 frequencies at 10.65, 21.00 and 36.5 GHz both V and
ADMIRARI (ADvanced MIcrowave RAdiometer for Rain Identification) quality controlled brightness temperatures at zenith angle for 6 channels (3 frequencies at 10.65, 21.00 and 36.5 GHz both V and H polarization)
The files contain water vapor mixing ratio profiles measured with IfT's multi-wavelength lidar (MWL) in the Murg Valley during the COPS period. The measurement period was from 06.07 to 08.25.2007. The
The files contain the line-of-sight (LOS) velocities measured with IfT's Doppler wind lidar (WiLi) in the Murg Valley during the COPS period. Additionally, the respective signal strength is given as a
quality controlled continuous DPR (Dual Polarization Radiometer) microwave brightness temperature measurements at 90 and 150 GHz (~1s temporal resolution), measurements at 150 GHz carried out in horizontal and vertical polarization mode.
HATPRO (Humidity and Temperature PROfiler) quality controlled integrated water vapor (IWV) and liquid water path (LWP) derived from frequencies 22.24, 23.04, 23.84, 25.44, 26.24, 27.84, and 31.4 GHz via
Brightness temperatures in different observation modes from ADMIRARI (ADvanced MIcrowave RAdiometer for Rain Identification) run by University Bonn at COPS-Supersite Murg Valley. Quality controlled brightness