TJ-II:Interferometry: Difference between revisions

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(Created page with 'TJ-II has two interferometry systems. == The Microwave interferometer == The probing beam has a frequency of 140 GHz, corresponding to a wavelength of <math>\lambda</math> = 2.…')
 
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== The Microwave interferometer ==
== The Microwave interferometer ==


The probing beam has a frequency of 140 GHz, corresponding to a wavelength of <math>\lambda</math> = 2.14 mm.
The probing beam has a frequency of 140 GHz, corresponding to a wavelength of &lambda; = 2.14 mm.
The diagnostic provides a time trace of the-line integrated electron density (65536 points, sampling rate 100 kHz).
The diagnostic provides a time trace of the-line integrated electron density (65536 points, sampling rate 100 kHz).
The signal is less reliable for high densities (above <math>2-3 \cdot 10^{19} {\rm m}^{-3}</math>).
The signal is less reliable for high densities (above 2-3 10<sup>19</sup> m<sup>-3</sup>).
This time trace is fundamental for machine operation.
This time trace is fundamental for machine operation.



Revision as of 15:15, 15 July 2009

TJ-II has two interferometry systems.

The Microwave interferometer

The probing beam has a frequency of 140 GHz, corresponding to a wavelength of λ = 2.14 mm. The diagnostic provides a time trace of the-line integrated electron density (65536 points, sampling rate 100 kHz). The signal is less reliable for high densities (above 2-3 1019 m-3). This time trace is fundamental for machine operation.

The CO2 interferometer

The probing wavelength is about .