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UC
Davis PDG:ECE
Imaging on RTP - Specs
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RTP is a relatively small
tokamak, with a Major radius of 90 cm and a minor radius of 18 cm. The
RTP ECE Imaging system looks at the plasma through a large viewing window
(30 cm high by 18 cm wide) made of BK-7. The 16 imaging channels are spaced
11 to 13 mm apart, and cover approximately 16 cm of the plasma centered
on the plasma midplane.
The antennas in the ECE
imaging array are arranged in a staggered pattern of 16 vertically spaced
elements arranged in two parallel (horizontally displaced) rows. Shown
above are H-Plane focal plane patterns of four consecutive channels measured
at 120 GHz. Here, even and odd channels are toroidally displaced by 2.5
cm. Plotted below are the E-Plane focal plane patterns at 118.75 GHz of
the 14 innermost channels, illustrating the channel positions and the focal
plane spot sizes as a function of channel number. Sidelobe levels, which
arise from edge diffraction, increase as one moves away from the center
channels.
In RTP, there is a 500
kW, 110 GHz ECRH system in which the RF power is coupled to the tokamak
plasma by mirrors through the air. Hence, large levels of stray 110 GHz
radiation around the tokamak hall exist which can affect not only system
performance but could endanger the Schottky diode mixer array itself. All
the optical components mounted on the tower are enclosed by a shielding
box built to reject stray ECRH power at 110 GHz, leaving only the front
surface of lens G open to collect second harmonic plasma radiation.
Any stray ECRH radiation
received by lens G is rejected by the dichroic filter. To ensure mixer
array safety, a dichroic plate attached to the array box functions as a
high pass filter, the performance of which is shown above. In Ohmic discharges
(discharges without additional ECRH heating), this filter can be removed
to extend the operation frequency to below 110 GHz. The system performance
is well characterized both with and without the dichroic filter and the
difference is found to be small.
For results of ECE Imaging
measurements on RTP, including electron temperature fluctuations, please
examine the following links:
High
resolution measurements of electron temperature profiles
Electron
temperature fluctuation spectra
Electron
temperature fluctuation dispersion relations
Electron
temperature fluctuations as a function of plasma current and density
2D
structure of electron temperature fluctuations
The unique features of
the ECE Imaging diagnostics derive from the use of wideband, low cost monolithic
and hybrid Schottky diode mixer arrays. Follow the links below to learn
more about both the technology and the techniques employed in ECE Imaging.
Imaging
array design and fabrication
Correlation
Measurements
UC Davis has fabricated
and installed multichannel ECE Imaging systems on other fusion plasma tokamaks
across the world. Follow the links below for a description of the systems
involved, and to sample data collected with these systems.
ECE
Imaging on the TEXT-U tokamak in the U.S.A.
ECE
Imaging on the TEXTOR tokamak in Germany
Comments to: Bihe Deng