Brightness temperature measured by ARIEL radiometer at 1.4GHz from July to September 2020 during the MOSAiC expedition

The data contains brightness temperature data measured by ARIEL at 1.4GHz, during the MOSAIC expedition, in particular from July to September 2022 (LEG4 and LEG5). The ARIEL radiometer is a dual polarization (H & V) total power radiometer with internal calibration. The central frequency is 1.41...

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Bibliographic Details
Main Authors: Gabarró, Carolina, Fabregat, Pau, Hernández-Macià, Ferran, Martínez, Justino, Jove, Roger, Salvador, Joaquin, Spreen, Gunnar, Thielke, Linda, von Albedyll, Luisa
Format: Dataset
Language:English
Published: PANGAEA 2022
Subjects:
Action
Arctic
Arctic Ocean
Binary Object
Binary Object (File Size)
brightness temperatures
Comment
DATE/TIME
Event label
ice thickness
L-Band Microwave Radiometer
L-Band radiometry
L-MRA
Mosaic
MOSAiC20192020
Multidisciplinary drifting Observatory for the Study of Arctic Climate
Polarstern
PS122/4
PS122/4_47-147
PS122/4_47-148
PS122/4_47-4
PS122/4_48-184
PS122/4_48-185
PS122/4_48-194
PS122/4_48-195
PS122/4_48-36
PS122/5
PS122/5_59-246
PS122/5_59-248
PS122/5_59-253
PS122/5_59-270
PS122/5_59-271
PS122/5_59-288
PS122/5_59-324
PS122/5_59-339
PS122/5_59-362
PS122/5_59-376
PS122/5_59-377
PS122/5_59-378
PS122/5_59-499
PS122/5_59-500
PS122/5_59-501
PS122/5_59-503
PS122/5_60-114
PS122/5_60-115
PS122/5_60-12
PS122/5_60-13
PS122/5_60-138
PS122/5_60-139
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.943755
https://doi.org/10.1594/PANGAEA.943755
Description
Summary:The data contains brightness temperature data measured by ARIEL at 1.4GHz, during the MOSAIC expedition, in particular from July to September 2022 (LEG4 and LEG5). The ARIEL radiometer is a dual polarization (H & V) total power radiometer with internal calibration. The central frequency is 1.41 GHz, with a bandwidth of 20 MHz. The system has a 2x1 patch antenna, with a beam width of 36 ◦ at 3 dB at the azimuth direction and 70 ◦ at 3 dB at the elevation angle. The radiometric accuracy of ARIEL is 1.06 K at 1 Hz sampling frequency, with the capability to measure at higher sampling rates (up to 10 Hz) at the expenses of the radiometric accuracy. A co-located thermal infrared photodiode to measure the surface temperature and a GPS receiver complete the sensor equipment. Calibration is performed with a hot load and a cold load. To adapt the ARIEL instrument to the harsh and cold conditions of the Arctic, two adaptions were required to increase the internal thermal resistance by adding isolating material and to apply conformal coating to protect the electronics against humidity. The ARIEL accuracy was 2.3 K (instead of 1 K, due to a software error on the sampling rate). This light (7 kg) and small radiometer (40 cm x 60 cm x 20 cm) is ideal for frequent manoeuvres. The radiometer was mounted on a wooden sledge to measure microwave emission at 40 ◦ incidence angle with respect to nadir. A calibration procedure for the radiometers is needed to convert the measured voltages to brightness temperatures. The calibration of the ARIEL was done pointing the radiometer to cold and hot targets. The cold target is the cold sky (approx. temperature of 6 K (from Le Vine and Skou (2006)), while the hot target was absorber material at the instrument frequency stored into a big box (which represent an emissivity of 1). The calibration routines were performed every few days (3-5 days). After filtering the outliers, the data was smoothed to further reduce the noise. A sliding window of 20 samples was applied, which has proven to ...

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