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Your search keyword '"Gates, D. A."' showing total 24 results
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24 results on '"Gates, D. A."'

1. Conceptual Design of a Scintillator-Based Fast-Ion Loss Detector for the Wendelstein 7-X Stellarator

Author

Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Universidad de Sevilla. Departamento de Ingeniería Mecánica y de Fabricación, European Union (UE), Ministerio de Ciencia e Innovación (MICIN). España, Van Vuuren, Anton Jansen, Lazerson, S. A., Leviness, A., García Muñoz, Manuel, Gates, D., Galdón Quiroga, Joaquín, Hidalgo Salaverri, J., Rueda Rueda, J., García Domínguez, Javier, Ayllón Guerola, Juan Manuel, Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Universidad de Sevilla. Departamento de Ingeniería Mecánica y de Fabricación, European Union (UE), Ministerio de Ciencia e Innovación (MICIN). España, Van Vuuren, Anton Jansen, Lazerson, S. A., Leviness, A., García Muñoz, Manuel, Gates, D., Galdón Quiroga, Joaquín, Hidalgo Salaverri, J., Rueda Rueda, J., García Domínguez, Javier, and Ayllón Guerola, Juan Manuel

Abstract

A conceptual design of a scintillator-based fast-ion loss detector (FILD) has been developed for the Wendelstein 7-X stellarator (W7-X). Simulations using the Monte Carlo codes ASCOT5 and BEAMS3D have been performed to calculate the expected flux of neutral beam injection (NBI)-generated fast hydrogen ions onto the conceptual detector probe head. These fast-ion loss fluxes have been calculated for several magnetic field configurations as well as probe insertion positions. At the maximum insertion position, both co- and counter-going losses with high incident pitch angles are observed; however, at retracted positions, only co-going fast ions reach the probe head. The FILDSIM code has been used to optimize the geometry of the detector entrance and collimating elements to achieve a wide velocity space coverage as well as a high velocity–space resolution. A synthetic FILD signal is calculated for the expected loss distribution via forward modeling using the instrument response function. The synthetic signal is found to largely retain the velocity space features of the loss distribution.

Published
2022

5. Design and Performance of NSTX Movable GDC Probe

Author

Kugel, H. W., primary, Maingi, R., additional, Bell, M., additional, Blanchard, W., additional, Gates, D., additional, Gernhardt, R., additional, Holoman, T., additional, Labik, G., additional, Provost, T., additional, Roquemore, A. L., additional, and Sichta, P., additional

Published
2007
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10. Making of the NSTX facility.

Author

Ono, M., Kaye, S.M., Neumeyer, C., Peng, Y.-K.M., Williams, M., Barnes, G., Bell, M., Bialek, J., Bigelow, T., Blanchard, W., Brooks, A., Carter, M.D., Chrzanowski, J., Davis, W., Dudek, L., Ellis, R., Fan, H.M., Fredd, E., Gates, D., and Gibney, T.

Published
1999
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12. Results of NSTX Heating Experiments.

Author

Mueller, D., Ono, M., Bell, M. G., Bell, R. E., Bitter, M., Bourdelle, C., Darrow, D. S., Efthimion, P. C., Fredrickson, E. D., Gates, D. A., Goldston, R. J., Grisham, L. R., Hawryluk, R. J., Hill, K. W., Hosea, J. C., Jardin, S. C., Ji, H., Kaye, S. M., Kaita, R., and Kugel, H. W.

Subjects
FUSION reactors, CONTROLLED fusion, PLASMA gases, NEUTRAL beams, PARTICLE beams, TOKAMAKS
Abstract

The National Spherical Torus Experiment (NSTX) at Princeton University, Princeton, NJ, is designed to assess the potential of the low-aspect-ratio spherical torus concept for magnetic plasma confinement. The plasma has been heated by up to 7 MW of neutral beam injection (NBI) at an injection energy of 100 keV and up to 6 MW of high harmonic fast wave (HHFW) at 30 MHz. NSTX has achieved βT of 32%. A variety of MHD phenomena have been observed to limit β. NSTX has now begun addressing TE scaling, β limits, and current drive issues. During the NBI heating experiments, a broad Ti profile with Ti up to 2 keV, Ti > Te and a large toroidal rotation were observed. Transport analysis suggests that the impurity ions have diffusivities approaching neoclassical. For L-Mode plasmas, TE is up to two times the ITER97L L-Mode scaling and exceeds the ITER98pby2 H-Mode scaling in some cases. Transitions to H-Mode have been observed which result in an approximate doubling of TE after the transition in some conditions. During HHFW heating, Te > Ti and Te up to 3.5 keV were observed. Current drive has been studied using both coaxial helicity injection with up to 390 kA of toroidal current and HHFW. HHFW has produced H-modes with significant bootstrap current fraction at low Ip, high q, and high βp. [ABSTRACT FROM AUTHOR]

Published
2003
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13. Upgrade for the National Spherical Torus Experiment Control Computer.

Author

Mueller, D. and Gates, D. A.

Subjects
*EQUILIBRIUM, *REAL-time control, *MAGNETICS, *TORUS, *CONTROLLED fusion
Abstract

Presents a study which implemented an equilibrium real-time analysis code for the magnetics data of a spherical torus experiment control computer. Impact of the spherical torus to fusion reaction or volume neutron source; Summary.

Published
2000
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14. Control System Development Plan for the National Spherical Torus Experiment.

Author

Gates, D. A. and Mueller, D.

Subjects
*PLASMA devices, *CONTROL theory (Engineering), *TORUS, *CONTROLLED fusion, *COMPUTER systems
Abstract

Presents a study which discussed the plasma control system development plan for a spherical torus experiment on fusion reaction. Details on its computer software and hardware developments; Results and summary.

Published
2000
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16. NSTX high field side gas fueling system

Author

Kugel, H.W., primary, Anderson, M., additional, Barnes, G., additional, Bell, M., additional, Blarchard, W., additional, Dudek, L., additional, Gates, D., additional, Gernhardt, R., additional, Maingi, R., additional, Mueller, D., additional, Provost, T., additional, Raman, R., additional, Soukhanovskii, V., additional, and Winston, J., additional

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17. Making of the NSTX facility

Author

Ono, M., primary, Kaye, S.M., additional, Neumeyer, C., additional, Peng, Y.-K.M., additional, Williams, M., additional, Barnes, G., additional, Bell, M., additional, Bialek, J., additional, Bigelow, T., additional, Blanchard, W., additional, Brooks, A., additional, Carter, M.D., additional, Chrzanowski, J., additional, Davis, W., additional, Dudek, L., additional, Ellis, R., additional, Fan, H.M., additional, Fredd, E., additional, Gates, D., additional, Gibney, T., additional, Goranson, P., additional, Hatcher, R.E., additional, Heitzenroeder, P., additional, Hosea, J., additional, Jardin, S.C., additional, Jarboe, T., additional, Johnson, D., additional, Kalish, M., additional, Kaita, R., additional, Kessel, C., additional, Kugel, H., additional, Majeski, R., additional, McCormack, B., additional, Maingi, R., additional, Menard, J., additional, Maqueda, R., additional, Marsala, R., additional, Mueller, D., additional, Nelson, B.E., additional, Nelson, B.A., additional, Oliaro, G., additional, Paoletti, F., additional, Parsells, R., additional, Perry, E., additional, Pearson, G., additional, Ramakrishnan, S., additional, Raman, R., additional, Robinson, J., additional, Roney, P., additional, Roquemore, L., additional, Ryan, P., additional, Sabbagh, S., additional, Sichta, P., additional, Stevenson, T., additional, Swain, D., additional, Viola, M., additional, Von Halle, A., additional, Wilson, J.R., additional, Wurden, G., additional, and Zweben, S., additional

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