Microwave Radiometry and Radiometers for Ocean Applications

The microwave radiometer system measures, within its bandwidth, the naturally emitted radiation – the brightness temperature – of substances within its antenna’s field of view. Thus a radiometer is really a sensitive and calibrated microwave receiver. The radiometer can be a basic total power radiom...

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Bibliographic Details
Main Author: Skou, Niels
Other Authors: Barale, V., Gade, M.
Format: Book Part
Language:English
Published: Springer 2008
Subjects:
Faraday
Sea ice
Online Access:https://orbit.dtu.dk/en/publications/471cb860-b0cf-4532-b4f5-30855bd50424
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spelling ftdtupubl:oai:pure.atira.dk:publications/471cb860-b0cf-4532-b4f5-30855bd50424 2023-05-15T18:18:36+02:00 Microwave Radiometry and Radiometers for Ocean Applications Skou, Niels Barale, V. Gade, M. 2008 https://orbit.dtu.dk/en/publications/471cb860-b0cf-4532-b4f5-30855bd50424 eng eng Springer info:eu-repo/semantics/restrictedAccess Skou , N 2008 , Microwave Radiometry and Radiometers for Ocean Applications . in V Barale & M Gade (eds) , Remote Sensing of the European Seas . Springer , Heidelberg , pp. 207-222 . bookPart 2008 ftdtupubl 2023-01-11T23:54:50Z The microwave radiometer system measures, within its bandwidth, the naturally emitted radiation – the brightness temperature – of substances within its antenna’s field of view. Thus a radiometer is really a sensitive and calibrated microwave receiver. The radiometer can be a basic total power radiometer or a more stable Dicke radiometer. Also correlation receivers play an important role in modern systems. The radiometer system might be single or dual polarized (horizontal and vertical) – or even be polarimetric, i.e. measure all 4 Stokes parameters, thus providing additional geophysical information at any given frequency. The radiometer system will very often be configured as an imaging system on a spacecraft for example. This normally implies scanning the antenna. Then there are certain relationships (or even conflicts) between achievable radiometric sensitivity/ ground resolution/antenna size, and the problem: scanning antenna/space- craft stability. In many cases good compromises have been reached, as evident recalling the many successful missions throughout the recent 30 years. But in some cases the situation calls for special solutions, like the push-broom system or the synthetic aperture radiometer technique, both yielding imaging capability without scanning. Typical applications of microwave radiometry concerning oceans are: sea salinity, sea surface temperature, wind speed and direction, sea ice detection and classification. However, in an attempt to measure properties of the sea from space, the intervening atmosphere will disturb the process, and corrections might be required. Also, at some frequencies and for some applications, the Faraday rotation in the Ionosphere must be taken into account. Book Part Sea ice Technical University of Denmark: DTU Orbit Faraday ENVELOPE(-64.256,-64.256,-65.246,-65.246)
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description The microwave radiometer system measures, within its bandwidth, the naturally emitted radiation – the brightness temperature – of substances within its antenna’s field of view. Thus a radiometer is really a sensitive and calibrated microwave receiver. The radiometer can be a basic total power radiometer or a more stable Dicke radiometer. Also correlation receivers play an important role in modern systems. The radiometer system might be single or dual polarized (horizontal and vertical) – or even be polarimetric, i.e. measure all 4 Stokes parameters, thus providing additional geophysical information at any given frequency. The radiometer system will very often be configured as an imaging system on a spacecraft for example. This normally implies scanning the antenna. Then there are certain relationships (or even conflicts) between achievable radiometric sensitivity/ ground resolution/antenna size, and the problem: scanning antenna/space- craft stability. In many cases good compromises have been reached, as evident recalling the many successful missions throughout the recent 30 years. But in some cases the situation calls for special solutions, like the push-broom system or the synthetic aperture radiometer technique, both yielding imaging capability without scanning. Typical applications of microwave radiometry concerning oceans are: sea salinity, sea surface temperature, wind speed and direction, sea ice detection and classification. However, in an attempt to measure properties of the sea from space, the intervening atmosphere will disturb the process, and corrections might be required. Also, at some frequencies and for some applications, the Faraday rotation in the Ionosphere must be taken into account.
author2 Barale, V.
Gade, M.
format Book Part
author Skou, Niels
spellingShingle Skou, Niels
Microwave Radiometry and Radiometers for Ocean Applications
author_facet Skou, Niels
author_sort Skou, Niels
title Microwave Radiometry and Radiometers for Ocean Applications
title_short Microwave Radiometry and Radiometers for Ocean Applications
title_full Microwave Radiometry and Radiometers for Ocean Applications
title_fullStr Microwave Radiometry and Radiometers for Ocean Applications
title_full_unstemmed Microwave Radiometry and Radiometers for Ocean Applications
title_sort microwave radiometry and radiometers for ocean applications
publisher Springer
publishDate 2008
url https://orbit.dtu.dk/en/publications/471cb860-b0cf-4532-b4f5-30855bd50424
long_lat ENVELOPE(-64.256,-64.256,-65.246,-65.246)
geographic Faraday
geographic_facet Faraday
genre Sea ice
genre_facet Sea ice
op_source Skou , N 2008 , Microwave Radiometry and Radiometers for Ocean Applications . in V Barale & M Gade (eds) , Remote Sensing of the European Seas . Springer , Heidelberg , pp. 207-222 .
op_rights info:eu-repo/semantics/restrictedAccess
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