Airborne radar reflectivity and brightness temperature measurements with POLAR 5 during ACLOUD in May and June 2017

During the Arctic CLoud Observations Using airborne measurements during polar Day (ACLOUD) campaign in summer 2017 conducted from Longyearbyen/Svalbard, a combination of active and passive microwave instruments MiRAC (Microwave Radar/radiometer for Arctic Clouds) has been operated on board of the Po...

Full description

Bibliographic Details
Main Authors: Kliesch, Leif-Leonard, Mech, Mario
Format: Dataset
Language:English
Published: PANGAEA 2019
Subjects:
AC
AC3
ACLOUD
airborne
Aircraft
Arctic
Arctic Amplification
Arctic Cloud Observations Using airborne measurements during polar Day
brightness temperature
clouds
Date/Time of event
Event label
File format
File name
File size
Flight 04
Flight 05
Flight 06
Flight 07
Flight 08
Flight 10
Flight 11
Flight 14
Flight 15
Flight 16
Flight 17
Flight 18
Flight 19
Flight 20
Flight 21
Flight 22
Flight 23
Flight 25
FMCW
microwave
MiRAC
P5_206_ACLOUD_2017
P5_206_ACLOUD_2017_1705230601
P5_206_ACLOUD_2017_1705250701
P5_206_ACLOUD_2017_1705270801
P5_206_ACLOUD_2017_1705270902
P5_206_ACLOUD_2017_1705291001
P5_206_ACLOUD_2017_1705311101
P5_206_ACLOUD_2017_1706021201
P5_206_ACLOUD_2017_1706081401
P5_206_ACLOUD_2017_1706091501
P5_206_ACLOUD_2017_1706131601
P5_206_ACLOUD_2017_1706141701
P5_206_ACLOUD_2017_1706161801
P5_206_ACLOUD_2017_1706171901
Arctic Ocean
Svalbard
Longyearbyen
Alfred Wegener Institute
Sea ice
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.899565
https://doi.org/10.1594/PANGAEA.899565
Description
Summary:During the Arctic CLoud Observations Using airborne measurements during polar Day (ACLOUD) campaign in summer 2017 conducted from Longyearbyen/Svalbard, a combination of active and passive microwave instruments MiRAC (Microwave Radar/radiometer for Arctic Clouds) has been operated on board of the Polar 5 research aircraft of the Alfred-Wegener Institute for polar and ocean research (AWI). MiRAC contains a Frequency Modulated Continuous Wave (FMCW) radar at 94 GHz mounted in a belly pod under 25deg backwards inclined with respect to nadir. Included is also the 89 GHz passive channel and a passive microwave instrument with six channels in the 183 GHz water vapor line and channels at 243 and 340 GHz installed nadir pointing in the cabin. The data set was collected during approximately 80 flight hours in May/June 2017 northwest of Svalbard over the Arctic ocean and sea ice. It contains the unfiltered reflectivity profiles as well as the filtered profiles. Both profiles are corrected for aircraft motion and instrument/aircraft orientation. The filters consider disturbances due to the signal processing, side lobe effects, and removal of speckles. Furthermore, quality flags for the radar reflectivity are included in the data set. For the passive component, the brightness temperatures at 89 GHz are included without considering the observation geometry. The data set is completed by information recorded by the aircraft system (latitude, longitude, flight height, pitch, roll, and flight speed). The data are stored as netCDF format and each file contains data for one research flight (except for the 17th and 23rd of June 2017). For the higher passive microwave channels a separate dataset will be provided. For detailed information on the instruments and the processing see Mech et al. 2019 (doi:10.5194/amt-2019-151). The campaign ACLOUD is described in Wendisch et al. 2018 (doi:10.1175/BAMS-D-18-0072.1).

Similar Items