An analysis of lower hybrid wave diffraction and focusing with a 2D toroidal 
full-wave code

Wright, J. C.; Bonoli, P. T.; Phillips, C. K.; Brambilla, M.; D'Azevedo, E.

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An analysis of lower hybrid wave diffraction and focusing with a 2D toroidal full-wave code

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Brambilla, M.
Tokamak Theory (TOK), Max Planck Institute for Plasma Physics, Max Planck Society;

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Wright, J. C., Bonoli, P. T., Phillips, C. K., Brambilla, M., & D'Azevedo, E. (2004). An analysis of lower hybrid wave diffraction and focusing with a 2D toroidal full-wave code. Talk presented at 2004 International Sherwood Fusion Theory Conference. Missoula, MT. 2004-04-26 - 2004-04-28.

Cite as: https://hdl.handle.net/21.11116/0000-0000-0DC7-2

Abstract

The increased availability of massively parallel processing (MPP) architectures has lead to the improved accessibility of some full-wave phenomena in ultra-short wavelength regimes [1]. In this work, we have modified the dielectric operator of an ion cyclotron range of frequencies (ICRF) fullwave code, TORIC [2], to be valid in the lower hybrid range of frequencies (LHRF). These new capabilities permit studies of diffraction and focusing effects at the very short wavelengths of lower hybrid (LH) waves. Results of full-wave LH calculations in the Alcator C-Mod geometry have been obtained (see Fig. 1) and have been compared with ray tracing analysis for the same parameters. Differences between the geometric optics and fullwave models have been found to be related to focusing, diffraction, and spectral broadening effects [3] not included in the eikonal method. These differences will be discussed at length. [1] J. C. Wright, et al.,, Phys. Plasmas, accepted for publication Jan 2004. [2] M. Brambilla, Plasma Phys. Controlled Fusion 41, 1 (1999). [3] G. Pereverzev, Nucl. Fusion 32, 1091 (1992).