1. A Scoping Study for High-Field-Side Launch of Lower Hybrid Waves on ADX MIT.
- Author
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Wallace, G. M., Shiraiwa, S., Baek, S. G., Bonoli, P. T., Kanojia, A. D., Koert, P., LaBombard, B. L., Leccacorvi, R., Parker, R. R., Terry, D. R., Vieira, R., and Wukitch, S. J.
- Subjects
PLASMA hybrid waves ,TOKAMAKS ,PLASMA physics ,PLASMA waves ,MAGNETIC fields ,LANDAU damping ,REFRACTIVE index - Abstract
Launching lower hybrid (LH) waves from the high field side (HFS) of a tokamak offers significant advantages over low–field-side (LFS) launch with respect to both wave physics and plasma material interactions (PMIs). The higher magnetic field opens the window between wave accessibility and the condition for strong electron Landau damping, allowing LH waves from the HFS to penetrate into the core of burning plasma, while waves launched from the LFS are restricted to the periphery of the plasma. The lower parallel refractive index ( $n\vert \vert $ ) of the waves launched from the HFS yields a higher current drive efficiency as well. The absence of turbulent heat and particle fluxes on the HFS, particularly in double null configuration, makes it the ideal location to minimize PMI damage to the antenna structure. The quiescent scrape off layer (SOL) also eliminates the need to couple LH waves across a long distance to the separatrix, as the antenna can be located close to plasma without risking damage to the structure. The Advanced Divertor eXperiment (ADX) will include an LH launcher located on the HFS. The LH system for ADX will make use of the existing infrastructure from Alcator C-Mod, including sixteen 250-kW klystrons at 4.6 GHz (total source power of 4 MW), high-voltage power supply, and controls. The ADX vacuum vessel design includes dedicated space for waveguide runs, pressure windows, and vacuum feedthroughs for accessing the HFS wall. Compact antenna designs based on proven technologies (e.g., multijunction and four-way splitter antennas) fit within the available space on the HFS of the ADX. Wave coupling simulations of these launchers with HFS SOL density profiles showing good coupling can be obtained by adjusting the distance between the separatrix and the HFS wall. Guard limiters on each side of the LH antenna protect the structure during ramp-up, ramp-down, and off-normal events. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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