Diferenças entre edições de "ISTTOK Diagnostics"

(Interferometer)
(Interferometer)
Linha 4: Linha 4:
 
==Spectroscopy==
 
==Spectroscopy==
 
==Interferometer==
 
==Interferometer==
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[[File:Interferometer_schematic.jpg|border|200px|link=http://spf.pt]]
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[[File:Axes_&_Coil.png||thumb|Fig. 1 - Esta experiência consiste num conjunto de espiras retangulares capazes de criar um campo magnético no espaço. Como uma das dimensões é muito maior do que a outra, o problema poderá ser abordado em primeira aproximação como dois cabos infinitos, de solução matematicamente mais simples. |right|border|236px]]
 
The ISTTOK interferometer is based on the heterodyne detection principle with quadrature detection for an absolute phase determination and has only one vertical line of sight that crosses the plasma in the radial center. The interferometer uses a central frequency of 100 GHz, crossing the plasma central cord. It can be used to measure densities up to 1.24 x 10^20 m-3. The signal from the RF oscillator and the same signal after crossing the plasma are then mixed with the local oscillator frequency (99.15GHz), resulting in an interference frequency of 850 MHz. Although more complex, this method with a intermediate frequency generation has the advantage of reducing the frequency to be acquired by the data acquisition system and improves the sensibility of the system.
 
The ISTTOK interferometer is based on the heterodyne detection principle with quadrature detection for an absolute phase determination and has only one vertical line of sight that crosses the plasma in the radial center. The interferometer uses a central frequency of 100 GHz, crossing the plasma central cord. It can be used to measure densities up to 1.24 x 10^20 m-3. The signal from the RF oscillator and the same signal after crossing the plasma are then mixed with the local oscillator frequency (99.15GHz), resulting in an interference frequency of 850 MHz. Although more complex, this method with a intermediate frequency generation has the advantage of reducing the frequency to be acquired by the data acquisition system and improves the sensibility of the system.
 
After the phase unwrapping one can retrieve the average plasma density across this cord.
 
After the phase unwrapping one can retrieve the average plasma density across this cord.

Revisão das 08h52min de 8 de agosto de 2018

An overview of the main diagnostics existing in ISTTOK is given in this article. Most of them are available on the scientific literature so you can not expect a very deep insight on each one.

Magnetics

Electric probes

Spectroscopy

Interferometer

200px

The ISTTOK interferometer is based on the heterodyne detection principle with quadrature detection for an absolute phase determination and has only one vertical line of sight that crosses the plasma in the radial center. The interferometer uses a central frequency of 100 GHz, crossing the plasma central cord. It can be used to measure densities up to 1.24 x 10^20 m-3. The signal from the RF oscillator and the same signal after crossing the plasma are then mixed with the local oscillator frequency (99.15GHz), resulting in an interference frequency of 850 MHz. Although more complex, this method with a intermediate frequency generation has the advantage of reducing the frequency to be acquired by the data acquisition system and improves the sensibility of the system. After the phase unwrapping one can retrieve the average plasma density across this cord.

Bolometry

Pyrometers

Heavy ion beam

Tomography cameras

Vessel temperature monitoring

Pressure gauges