Tokamak plasma wave studies via multi-channel far-infrared laser scattering
The development and application of the first multichannel far-infrared (FIR) laser scattering apparatus are described together with a novel acousto-optic calibration technique. The apparatus provides, for the first time, the capability of measuring wave dispersion during a single tokamak discharge. As a first application, the apparatus was employed in the study of low frequency microturbulence. The results demonstrated the need for single shot dispersion acquisition capability and produced the first known observation of microturbulence dispersion in a tokamak plasma. This observed dispersion was interpreted as resulting from a combination of drift wave turbulence and bulk plasma rotation. A second application area is the study of ICRF waves. In particular, the determination of plasma parameters, such as ion temperature, by measurement of wave dispersion (e.g. ion Bernstein wave) during a single tokamak discharge represented the prime goal of this thesis. This resulted in a series of theoretical and experimental studies culminating in the first successful excitation and identification of mode converted ion Bernstein waves in a pure hydrogen tokamak plasma.
- Research Organization:
- California Univ., Los Angeles (USA)
- OSTI ID:
- 6102145
- Resource Relation:
- Other Information: Thesis (Ph. D.)
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
PLASMA WAVES
DISPERSION RELATIONS
TURBULENCE
TOKAMAK DEVICES
FAR INFRARED RADIATION
ICR HEATING
ION TEMPERATURE
LASER RADIATION
SCATTERING
CLOSED PLASMA DEVICES
ELECTROMAGNETIC RADIATION
HEATING
HIGH-FREQUENCY HEATING
INFRARED RADIATION
PLASMA HEATING
RADIATIONS
THERMONUCLEAR DEVICES
700108* - Fusion Energy- Plasma Research- Wave Phenomena
700200 - Fusion Energy- Fusion Power Plant Technology