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The Neutral Atmosphere
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Water Vapour Radiometry
Bob Sault

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Microwave Radiometry


Water
Its dipolar structure means that its melting and boiling points are much higher than other simple molecules (e.g. CO2, O2, N2). Whereas CO2, O2 and N2 are distributed in the lower atmosphere as ideal gases (e.g. they are distributed according to ideal gas law and gravity), water is "clumpy".


Radiative transfer: A loss y medium will emit thermal radiation in proportion to its physical temperature and its attenuation coefficient. For an atmosphere, the attenuation coefficient will depend on its composition, temperature and pressure. It will also be a function of frequency. Atmospheric radiometry is the study of the radiation emitted by the atmosphere. Microwave radiometry is extensively used to infer properties of the Earth's atmosphere, as well as the atmospheres of other planets.


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Atmospheric transmission
When receiving celestial emission at radio frequencies, O2, N2 (the "dry") components of the atmosphere introduce a excess path of approximately 2.2 metres over a vacuum. Water vapour introduces 50-300cm of excess path. Whereas the dry components are well-mixed, water vapour is clumpy. At microwave wavelengths, water vapour fluctuations is the predominant cause of changes in the excess path lengths at different antennas.


Blobs of water
· · Blobs exist on all size scales. Follow a so-called Kolmogorov spectrum of sizes. Typically the water vapour column for two sites 1 km apart are 99% the same ­ the socalled turbulent component consists of just 1% of the water.

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Water vapour radiometry


Continuum vs Line systems
"Continuum" water vapour radiometers measure fluctuations far from water lines Line systems work near either of the two water lines: 22.3 GHz or 183 GHz. Line systems much more robust to systematics. The water line shape acts as a filter to remove systematics.


Meteorologists have long used radiometry to study the water content of the atmosphere. The use of the technique in radio interferometry has been suggested for 10-20 years. Interferometry is a very different application that meteorology.


­ Path lengths of interest are much smaller (~100 µm). ­ It is a differential system (absolute path is not relevant).

Main problems: systematics!

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ATCA Water Vapour Radiometer
A radiometer near 22.3 GHz, which takes measurements at 4 bands. Required sensitivity is to measure fluctuations of 10 mK in the sky brightness of about 30 K (and uncooled receivers with system temperatures of a 300 K).


ATCA Water Vapour Radiometer

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Fluctuations in sky brighness

Compare the channels

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Results of the WVR

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