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Parametric Decay during HHFW on NSTX

Technical Report ·
DOI:https://doi.org/10.2172/840504· OSTI ID:840504
 [1]; ; ; ; ; ; ; ;
  1. Princeton Plasma Physics Laboratory
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High Harmonic Fast Wave (HHFW) heating experiments on NSTX have been observed to be accompanied by significant edge ion heating (T{sub i} >> T{sub e}). This heating is found to be anisotropic with T{sub perp} > T{sub par}. Simultaneously, coherent oscillations have been detected with an edge Langmuir probe. The oscillations are consistent with parametric decay of the incident fast wave ({omega} > 13{omega}{sub ci}) into ion Bernstein waves and an unobserved ion-cyclotron quasi-mode. The observation of anisotropic heating is consistent with Bernstein wave damping, and the Bernstein waves should completely damp in the plasma periphery as they propagate toward a cyclotron harmonic resonance. The number of daughter waves is found to increase with rf power, and to increase as the incident wave's toroidal wavelength increases. The frequencies of the daughter wave are separated by the edge ion cyclotron frequency. Theoretical calculations of the threshold for this decay in uniform plasma indicate an extremely small value of incident power should be required to drive the instability. While such decays are commonly observed at lower harmonics in conventional ICRF heating scenarios, they usually do not involve the loss of significant wave power from the pump wave. On NSTX an estimate of the power loss can be found by calculating the minimum power required to support the edge ion heating (presumed to come from the decay Bernstein wave). This calculation indicates at least 20-30% of the incident rf power ends up as decay waves.
Research Organization:
Princeton Plasma Physics Lab., Princeton, NJ (US)
Sponsoring Organization:
USDOE Office of Science (SC) (US)
DOE Contract Number:
AC02-76CH03073
OSTI ID:
840504
Report Number(s):
PPPL-4073
Country of Publication:
United States
Language:
English

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Related Subjects

16 TIDAL AND WAVE POWER
43 PARTICLE ACCELERATORS
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
CYCLOTRON FREQUENCY
CYCLOTRON HARMONICS
DAMPING
DECAY
HARMONICS
HEATING
HEATING ICRF
INSTABILITY
LANGMUIR PROBE
OSCILLATIONS
PLASMA
RESONANCE
TOKAMAKS NSTX
WAVE DECAY
WAVE POWER
WAVELENGTHS