Open AccessEnergetic Particle-induced Geodesic Acoustic Mode
Author(s) -
G.Y. Fu
Publication year - 2008
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/938974
Subject(s) - physics , mode (computer interface) , particle (ecology) , plasma , atomic physics , turbulence , diii d , geodesic , computational physics , mechanics , nuclear physics , tokamak , mathematical analysis , oceanography , mathematics , computer science , geology , operating system
A new energetic particle-induced Geodesic Acoustic Mode (EGAM) is shown to exist. The mode frequency, mode structure, and mode destabilization are determined non-perturbatively by energetic particle kinetic effects. In particular the EGAM frequency is found to be substantially lower than the standard GAM frequency. The radial mode width is determined by the energetic particle drift orbit width and can be fairly large for high energetic particle pressure and large safety factor. These results are consistent with the recent experimental observation of the beam- driven n=0 mode in DIII-D. The new mode is important since it can degrade energetic particle confinement as shown in the DIII-D experiments. The new mode may also affect the thermal plasma confinement via its interaction with plasma micro-turbulence
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