Testing Gyrokinetics on C-Mod and NSTX

Redi, M H; Dorland, W; Fiore, C L; Stutman, D; Baumgaertel, J A; Davis, B; Kaye, S M; McCune, D C; Menard, J; Rewoldt, G

doi:10.2172/841196

Title: Testing Gyrokinetics on C-Mod and NSTX

Technical Report · Mon Jun 20 00:00:00 EDT 2005

DOI:https://doi.org/10.2172/841196· OSTI ID:841196

Redi, M H; Dorland, W; Fiore, C L; Stutman, D; Baumgaertel, J A; Davis, B; Kaye, S M; McCune, D C; Menard, J; Rewoldt, G

Quantitative benchmarks of computational physics codes against experiment are essential for the credible application of such codes. Fluctuation measurements can provide necessary critical tests of nonlinear gyrokinetic simulations, but such require extraordinary computational resources. Linear micro-stability calculations with the GS2 [1] gyrokinetic code have been carried out for tokamak and ST experiments which exhibit internal transport barriers (ITB) and good plasma confinement. Qualitative correlation is found for improved confinement before and during ITB plasmas on Alcator C-Mod [2] and NSTX [3], with weaker long wavelength micro-instabilities in the plasma core regions. Mixing length transport models are discussed. The NSTX L-mode is found to be near marginal stability for kinetic ballooning modes. Fully electromagnetic, linear, gyrokinetic calculations of the Alcator C-Mod ITB during off-axis rf heating, following four plasma species and including the complete electron response show ITG/TEM microturbulence is suppressed in the plasma core and in the barrier region before barrier formation, without recourse to the usual requirements of velocity shear or reversed magnetic shear [4-5]. No strongly growing long or short wavelength drift modes are found in the plasma core but strong ITG/TEM and ETG drift wave turbulence is found outside the barrier region. Linear microstability analysis is qualitatively consistent with the experimental transport analysis, showing low transport inside and high transport outside the ITB region before barrier formation, without consideration of ExB shear stabilization.

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Research Organization:: Princeton Plasma Physics Lab. (PPPL), Princeton, NJ (United States)

Sponsoring Organization:: USDOE; USDOE Office of Science (SC) (US)

DOE Contract Number:: AC02-76CH03073

OSTI ID:: 841196

Report Number(s):: PPPL-4083; TRN: US0502399

Resource Relation:: Other Information: PBD: 20 Jun 2005

Country of Publication:: United States

Language:: English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
BENCHMARKS
CONFINEMENT
ELECTRONS
FLUCTUATIONS
HEATING
KINETICS
PHYSICS
PLASMA CONFINEMENT
SHEAR
STABILITY
STABILIZATION
TESTING
TURBULENCE
VELOCITY
WAVELENGTHS
COMPUTER SIMULATION
GYROKINETIC EQUATIONS
TOKAMAKS
NSTX

Title: Testing Gyrokinetics on C-Mod and NSTX

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