Your search keyword '"Y. Podpaly"' showing total 4 results

1. Measurement of plasma current dependent changes in impurity transport and comparison with nonlinear gyrokinetic simulation

Author

Jeff Candy, Martin Greenwald, Matthew Reinke, D. R. Mikkelsen, Y. Podpaly, Anne White, D.R. Ernst, and Nathan Howard

Subjects

Physics, Convection, Physics::Plasma Physics, Impurity, Transport coefficient, Plasma diagnostics, Atomic physics, Electric current, Condensed Matter Physics, Thermal diffusivity, Charged particle, Ion

Abstract

Measured impurity transport coefficients are found to demonstrate a strong dependence on plasma current in the core of Alcator C-Mod. These measurements are compared directly with linear and nonlinear gyrokinetic simulation in an attempt to both qualitatively and quantitatively reproduce the measured impurity transport. Discharges constituting a scan of plasma current from 0.6 to 1.2 MA were performed during the 2010 run campaign. The impurity transport from these discharges was determined using a novel set of spectroscopic diagnostics available on Alcator C-Mod. This diagnostic suite allowed for the effective constraint of impurity transport coefficient profiles inside of r/a = 0.6. A decrease in the measured impurity diffusivity and inward convection is found with increased plasma current. Global, nonlinear gyrokinetic simulations were performed using the GYRO code [J. Candy and R. E. Waltz, J Comput. Phys. 186, 545 (2003)] for all discharges in the experimental scan and are found to reproduce the exper...

Published

2012

2. Full wave effects on the lower hybrid wave spectrum and driven current profile in tokamak plasmas

Author

S. Shiraiwa, J. Ko, O. Meneghini, R. Parker, A. E. Schmidt, S. Scott, M. Greenwald, A. E. Hubbard, J. Hughes, Y. Ma, Y. Podpaly, J. E. Rice, G. Wallace, J. R. Wilson, S. M. Wolfe, and Alcator C-Mod Group

Subjects

Physics, Tokamak, Electromagnetic spectrum, Condensed Matter Physics, Lower hybrid oscillation, Electromagnetic radiation, Spectral line, Computational physics, law.invention, Ray tracing (physics), Physics::Plasma Physics, law, Computer Science::Symbolic Computation, Fokker–Planck equation, Atomic physics, Magnetohydrodynamics

Abstract

A numerical modeling of current profile modification by lower hybrid current drive (LHCD) using a fullwave/Fokker-Planck simulation code is presented. A MHD stable LHCD discharge on Alcator C-Mod was analyzed, and the current profile from full wave simulations was found to show better agreement with the experiment than a ray-tracing code. Comparison of full wave and ray-tracing simulation shows that, although ray-tracing can reproduce the stochastic wave spectrum broadening, the full wave calculation predicts even wider spectrum broadening, and the wave spectrum fills all of the kinematically allowed domain. This is the first demonstration of LHCD current profile modeling using a full wave simulation code in a multi-pass absorption regime, showing the clear impact of full wave effects on the LHCD driven current profile.

Published

2011

3. Development of a spatially resolving x-ray crystal spectrometer for measurement of ion-temperature (Ti) and rotation-velocity (v) profiles in ITER

Author

James Dunn, L. F. Delgado-Aparicio, S. G. Lee, M. G. O'Mullane, J. E. Rice, E. Wang, K. W. Hill, P. Beiersdorfer, R. Feder, K. Morris, Manfred Bitter, Matthew Reinke, Y. Podpaly, David W. Johnson, and R. Barnsley

Subjects

Physics, Toroid, Spectrometer, business.industry, Bent molecular geometry, Detector, X-ray, Crystal, symbols.namesake, Optics, symbols, Plasma diagnostics, business, Instrumentation, Doppler effect

Abstract

Imaging x-ray crystal spectrometer (XCS) arrays are being developed as a US-ITER activity for Doppler measurement of T(i) and v profiles of impurities (W, Kr, and Fe) with ∼7 cm (a/30) and 10-100 ms resolution in ITER. The imaging XCS, modeled after a prototype instrument on Alcator C-Mod, uses a spherically bent crystal and 2D x-ray detectors to achieve high spectral resolving power (E/dE6000) horizontally and spatial imaging vertically. Two arrays will measure T(i) and both poloidal and toroidal rotation velocity profiles. The measurement of many spatial chords permits tomographic inversion for the inference of local parameters. The instrument design, predictions of performance, and results from C-Mod are presented.

Published

2010

4. Vacuum ultraviolet impurity spectroscopy on the Alcator C-Mod tokamak

Author

J.L. Terry, P. Beiersdorfer, Nathan Howard, Y. Podpaly, Matthew Reinke, E. W. Magee, and J. E. Rice

Subjects

Tokamak, Materials science, Alcator C-Mod, Spectrometer, Impurity, law, Microchannel plate detector, Plasma diagnostics, Grating, Atomic physics, Spectroscopy, Instrumentation, law.invention

Abstract

Vacuum ultraviolet spectroscopy is used on the Alcator C-Mod tokamak to study the physics of impurity transport and provide feedback on impurity levels to assist experimental operations. Sputtering from C-Mod's all metal (Mo+W) plasma facing components and ion cyclotron range of frequency antenna and vessel structures (sources for Ti, Fe, Cu, and Ni), the use of boronization for plasma surface conditioning and Ar, Ne, or N(2) gas seeding combine to provide a wealth of spectroscopic data from low-Z to high-Z. Recently, a laser blow-off impurity injector has been added, employing CaF(2) to study core and edge impurity transport. One of the primary tools used to monitor the impurities is a 2.2 m Rowland circle spectrometer utilizing a Reticon array fiber coupled to a microchannel plate. With a 600 lines/mm grating the 80

Published

2010