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311 results on '"Fredrickson, E. D."'

1. Nonlinear simulations of GAEs in NSTX-U.

Author

Belova, E. V., Fredrickson, E. D., and Crocker, N. A.

Subjects
*TOROIDAL harmonics, *FAST ions, *PARTICLE motion, *ION beams, *TORUS
Abstract

A set of nonlinear simulations has been performed in order to study the nonlinear evolution of unstable global Alfvén eigenmodes in the National Spherical Torus Experiment-Upgrade (NSTX-U). Results of the single toroidal mode number, n, simulations are compared with a full nonlinear simulation (all toroidal harmonics included). In single-n simulations, the conservation of two integrals of motion of a particle in a cyclotron resonance with a monochromatic wave is demonstrated, resulting in a one-dimensional evolution of the particle distribution in (E , μ , p ϕ ) phase-space. Nonlinear simulations (both single-n and full nonlinear) show a significant redistribution of the resonant fast ions, especially in the pitch parameter. Thus, the changes in the resonant particle's parallel and perpendicular energies can be several times larger than the total particle energy change, with only a small fraction transferring into the excitation of the mode itself. This implies that even a relatively small amplitude mode can significantly modify the beam distribution in the resonant region. For the NSTX-U case considered, the single-n simulation results are close to full nonlinear simulation only for the most unstable mode, in which case the saturation amplitudes and changes in the fast ion distribution are comparable. In contrast, peak amplitudes of subdominant modes in all-n simulations are smaller by a factor of 3–10 compared to single-n runs due to the flattening of the beam ion distribution by the fastest growing mode. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Energetic particle instabilities in fusion plasmas

Author

Sharapov, S E, Alper, B, Berk, H L, Borba, D N, Breizman, B N, Challis, C D, Classen, I G J, Edlund, E M, Eriksson, J, Fasoli, A, Fredrickson, E D, Fu, G Y, Garcia-Munoz, M, Gassner, T, Ghantous, K, Goloborodko, V, Gorelenkov, N N, Gryaznevich, M P, Hacquin, S, Heidbrink, W W, Hellesen, C, Kiptily, V G, Kramer, G J, Lauber, P, Lilley, M K, Lisak, M, Nabais, F, Nazikian, R, Nyqvist, R, Osakabe, M, von Thun, C Perez, Pinches, S D, Podesta, M, Porkolab, M, Shinohara, K, Schoepf, K, Todo, Y, Toi, K, Van Zeeland, M A, Voitsekhovich, I, White, R B, Yavorskij, V, TG, ITPA EP, and Contributors, JET-EFDA

Subjects
Physics - Plasma Physics
Abstract

Remarkable progress has been made in diagnosing energetic particle instabilities on present-day machines and in establishing a theoretical framework for describing them. This overview describes the much improved diagnostics of Alfven instabilities and modelling tools developed world-wide, and discusses progress in interpreting the observed phenomena. A multi-machine comparison is presented giving information on the performance of both diagnostics and modelling tools for different plasma conditions outlining expectations for ITER based on our present knowledge., Comment: 37 pages, 20 figures

Published
2013
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11. Synergy of coupled kink and tearing modes in fast ion transport.

Author

Yang, J, Podestŕ, M, and Fredrickson, E D

Subjects
FAST ions, SOFT X rays, NEUTRAL beams, PHASE space, NEUTRON transport theory, MAGNETOHYDRODYNAMIC instabilities
Abstract

One aspect of the interaction between fast ions and magnetohydrodynamic (MHD) instabilities is the fast ion transport. Coupled kink and tearing MHD instabilities have also been reported to cause fast ion transport. Recently, the 'kick' model has been developed to compute the evolution of the fast ion distribution from neutral beam injection using instabilities as phase-space resonance sources. The goal of this paper is to utilize the kick model to understand the physics of fast ion transport caused by the coupled kink and tearing modes. Soft x-ray diagnostics are used to identify the mode parameters in the National Spherical Torus Experiment. The comparison of neutron rates measured and computed from time-dependent TRANSP simulation with the kick model shows that the coupling of kink and tearing mode is important in determination of the fast ion transport. The numerical scan of the mode parameters shows that the relative phase of the kink and tearing modes and the overlapping of kink and tearing mode resonances in the phase space can affect the fast ion transport, suggesting that the synergy of the coupled modes may be causing the fast ion transport. [ABSTRACT FROM AUTHOR]

Published
2021
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20. Numerical simulations of global Alfvén eigenmodes excitation and stabilization in NSTX-U.

Author

Belova, E. V., Fredrickson, E. D., Lestz, J. B., and Crocker, N. A.

Subjects
*NEUTRAL beams, *PLASMA beam injection heating, *ION beams, *COMPUTER simulation, *ELECTRON transport, *FAST ions, *TORUS
Abstract

Three-dimensional nonlinear simulations of Alfvén eigenmodes in the subcyclotron frequency range show a robust physical stabilizing mechanism via modest off-axis beam injection, in agreement with experimental observations from the National Spherical Torus Experiment (NSTX-U). Experimental results from NSTX-U have demonstrated that neutral beam injection from the new beam sources with large tangency radii deposits beam ions with large pitch, which can very effectively stabilize all unstable Global Alfvén Eigenmodes (GAEs). Beam-driven GAEs have been linked to enhanced electron transport in NSTX, and the ability to control these modes will have significant implications for NSTX-U, ITER, and other fusion devices where super-Alfvénic fast ions might be present. Nonlinear simulations using the HYM code have been performed to study the excitation and stabilization of GAEs in the NSTX-U right before and shortly after the additional off-axis beam injection. The simulations reproduce the experimental finding, namely, it is shown that off-axis neutral beam injection reliably and strongly suppresses all unstable GAEs. Before additional beam injection, the simulations show unstable counter-rotating GAEs with toroidal mode numbers and frequencies that match the experimentally observed modes. Additional off-axis beam injection has been modeled by adding beam ions with large pitch and varying density. The complete stabilization occurs at less than 7% of the total beam ion inventory. New analytical theory of GAE (de)stabilization has also been derived, suggesting a different interpretation for the GAE stabilization mechanism compared to previous publications. [ABSTRACT FROM AUTHOR]

Published
2019
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21. Emission in the ion cyclotron range of frequencies (ICE) on NSTX and NSTX-U.

Author

Fredrickson, E. D., Gorelenkov, N. N., Bell, R. E., Diallo, A., LeBlanc, B. P., and Podestà, M.

Subjects
*ION emission, *CYCLOTRONS, *MAGNETIC flux density, *PLASMA boundary layers, *LONGITUDINAL waves
Abstract

We report here on observations of magnetic fluctuations in the ion-cyclotron frequency range on NSTX and NSTX-U. In many respects, the fluctuations appear similar to the ion cyclotron emission (ICE) seen in conventional tokamaks. However, a significant difference between previous observations of ICE and the ICE on NSTX is that the frequency of ICE in conventional tokamaks is typically near the ion cyclotron frequency of the energetic fast ions at the plasma edge. In NSTX and NSTX-U, the magnetic fluctuation frequency corresponds to the ion cyclotron frequency deeper in the plasma, near the location of an internal transport barrier. As on conventional tokamaks, higher harmonics of the deuterium cyclotron frequency, as high as the seventh, are seen with the strongest signal sometimes from higher harmonics. The emission usually appears as an irregular sequence of short bursts typically ≤100 μs in duration although nearly continuous emission for several ms has also been seen under some conditions. Measurements of the emission with a toroidal array of fast probes show that the emission is a long wavelength, spatially coherent mode. The emission frequency does not follow an Alfvénic scaling with density, as seen for compressional Alfvén eigenmodes, but does show a linear scaling with local magnetic field strength. The measured emission shows a compressional polarization consistent with a compressional Alfvén wave. No correlation between the neutron rate and the ICE amplitude is seen. Three-wave coupling between the instability responsible for the ICE and lower frequency modes has also been observed. [ABSTRACT FROM AUTHOR]

Published
2019
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22. Transient electron heat diffusivity obtained from trace impurity injection on TFTR

Author

Kissick, M. W., primary, Fredrickson, E. D., additional, Callen, J. D., additional, Bush, C. E., additional, Chang, Z. Y., additional, Efthimion, P. C., additional, Hulse, R. A., additional, Mansfield, D. K., additional, Park, H. K., additional, Schivell, J., additional, Scott, S. D., additional, Synakowski, E. J., additional, Taylor, G., additional, and Zarnstorff, M. C., additional

Published
1993
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28. Toroidal Alfvén eigenmode avalanches in NSTX

Author

Fredrickson, E. D., Crocker, N. A., Darrow, D., Gorelenkov, N. N., Heidbrink, W. W., Kubota, S., Levinton, F. M., Liu, D., Medley, S. S., Podesta, M., Yuh, H., and Ronald E Bell

Published
2008

30. Energetic particle instabilities in fusion plasmas

Author

Sharapov, S. E., Alper, B., Berk, H. L., Borba, D. N., Breizman, B. N., Challis, C. D., Classen, I. G. J., Edlund, E. M., Eriksson, Jacob, Fasoli, A., Fredrickson, E. D., Fu, G. Y., Garcia-Munoz, M., Gassner, T., Ghantous, K., Goloborodko, V., Gorelenkov, N. N., Gryaznevich, M. P., Hacquin, S., Heidbrink, W. W., Hellesen, Carl, Kiptily, V. G., Kramer, G. J., Lauber, P., Lilley, M. K., Lisak, M., Nabais, F., Nazikian, R., Nyqvist, R., Osakabe, M., Thun, C. Perez von, Pinches, S. D., Podesta, M., Porkolab, M., Shinohara, K., Schoepf, K., Todo, Y., Toi, K., Zeeland, M.A. Van, Voitsekhovich, I., White, R. B., Yavorskij, V., TG, ITPA EP, Sharapov, S. E., Alper, B., Berk, H. L., Borba, D. N., Breizman, B. N., Challis, C. D., Classen, I. G. J., Edlund, E. M., Eriksson, Jacob, Fasoli, A., Fredrickson, E. D., Fu, G. Y., Garcia-Munoz, M., Gassner, T., Ghantous, K., Goloborodko, V., Gorelenkov, N. N., Gryaznevich, M. P., Hacquin, S., Heidbrink, W. W., Hellesen, Carl, Kiptily, V. G., Kramer, G. J., Lauber, P., Lilley, M. K., Lisak, M., Nabais, F., Nazikian, R., Nyqvist, R., Osakabe, M., Thun, C. Perez von, Pinches, S. D., Podesta, M., Porkolab, M., Shinohara, K., Schoepf, K., Todo, Y., Toi, K., Zeeland, M.A. Van, Voitsekhovich, I., White, R. B., Yavorskij, V., and TG, ITPA EP

Abstract

Remarkable progress has been made in diagnosing energetic particle instabilities on present-day machines and in establishing a theoretical framework for describing them. This overview describes the much improved diagnostics of Alfvén instabilities and modelling tools developed world-wide, and discusses progress in interpreting the observed phenomena. A multi-machine comparison is presented giving information on the performance of both diagnostics and modelling tools for different plasma conditions outlining expectations for ITER based on our present knowledge.

Published
2013
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36. Deuterium-tritium plasmas in novel regimes in the Tokamak Fusion Test Reactor

Author

Bell, M. G., Batha, S., Beer, M., Bell, R. E., Belov, A., Berk, H., Bemabei, S., Bitter, M., Breizman, B., Bretz, N. L., Budny, R., Bush, C. E., Callen, J., Cauffman, S., Chang, C. S., Chang, Z., Cheng, C. Z., Darrow, D. S., Dendy, R. O., Dorland, W., Duong, H., Efthimion, P. C., Ernst, D., Evenson, H., Fisch, N. J., Fisher, R., Fonck, R. J., Fredrickson, E. D., Fu, G. Y., Furth, H. P., Gorelenkov, N. N., Goloborodko, V. Y., Grek, B., Grisham, L. R., Hammett, G. W., Hawryluk, R. J., Heidbrink, W., Herrmann, H. W., Hermann, M. C., Hill, K. W., Hogan, J., Hooper, B., Hosea, J. C., Houlberg, W. A., Hughes, M., Jassby, D. L., Jobes, F. C., Johnson, D. W., Kaita, R., Kaye, S., Kesner, J., Kim, J. S., Kissick, M., Krasilnikov, A. V., Kugel, H., Kumar, A., Lam, N. T., Lamarche, P., Leblanc, B., Levinton, F. M., Ludescher, C., Machuzak, J., Majeski, R. P., Manickam, J., Mansfield, D. K., Mauel, M., Mazzucato, E., Mcchesney, J., Mccune, D. C., Mckee, G., Mcguire, K. M., Meade, D. M., Medley, S. S., Mikkelsen, D. R., Mirnov, S. V., Mueller, D., Nagayama, Y., Navratil, G. A., Nazikian, R., Okabayashi, M., Osakabe, M., Owens, D. K., Park, H. K., Park, W., Paul, S. F., Petrov, M. P., Phillips, C. K., Phillips, M., Phillips, P., Ramsey, A. T., Rice, B., Redi, M. H., Rewoldt, G., Reznik, S., Roquemore, A. L., Rogers, J., Ruskov, E., Sabbagh, S. A., Sasao, M., Schilling, G., Schmidt, G. L., Scott, S. D., Semenov, I., Senko, T., Skinner, C. H., Stevenson, T., Strait, E. J., Stratton, B. C., Strachan, J. D., Stodiek, W., Synakowski, E., Takahashi, H., Tang, W., Taylor, G., Thompson, M. W., Vongoeler, S., Vonhalle, A., Walters, R. T., Wang, S., White, R., Wieland, R. M., William Dorland, Wilson, J. R., Wong, K. L., Wurden, G. A., Yamada, M., Yavorski, V., Young, K. M., Zakharov, L., Zarnstorff, M. C., and Zweben, S. J.

Published
1997

39. Triggered Confinement Enhancement and Pedestal Expansion in High-Confinement-Mode Discharges in the National Spherical Torus Experiment

Author

Maingi, R., primary, Bell, R. E., additional, Canik, J. M., additional, Gerhardt, S. P., additional, Kaye, S. M., additional, LeBlanc, B. P., additional, Osborne, T. H., additional, Bell, M. G., additional, Fredrickson, E. D., additional, Lee, K. C., additional, Menard, J. E., additional, Park, J.-K., additional, and Sabbagh, S. A., additional

Published
2010
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41. Addendum to papers from the NSTX Team, published in Review of Scientific Instruments

Author

Gates, D. A., primary, Kessel, C., additional, Menard, J., additional, Taylor, G., additional, Wilson, J. R., additional, Bell, M. G., additional, Bell, R. E., additional, Bernabei, S., additional, Bialek, J., additional, Biewer, T., additional, Blanchard, W., additional, Boedo, J., additional, Bush, C., additional, Carter, M. D., additional, Choe, W., additional, Crocker, N., additional, Darrow, D. S., additional, Davis, W., additional, Delgado-Aparicio, L., additional, Diem, S., additional, Ferron, J., additional, Field, A., additional, Foley, J., additional, Fredrickson, E. D., additional, Gibney, T., additional, Harvey, R., additional, Hatcher, R. E., additional, Heidbrink, W., additional, Hill, K., additional, Hosea, J. C., additional, Jarboe, T. R., additional, Johnson, D. W., additional, Kaita, R., additional, Kaye, S., additional, Kubota, S., additional, Kugel, H. W., additional, Lawson, J., additional, LeBlanc, B. P., additional, Lee, K. C., additional, Levinton, F., additional, Maingi, R., additional, Manickam, J., additional, Maqueda, R., additional, Marsala, R., additional, Mastrovito, D., additional, Mau, T. K., additional, Medley, S. S., additional, Meyer, H., additional, Mikkelsen, D. R., additional, Mueller, D., additional, Munsat, T., additional, Nelson, B. A., additional, Neumeyer, C., additional, Nishino, N., additional, Ono, M., additional, Park, H., additional, Park, W., additional, Paul, S., additional, Peebles, T., additional, Peng, M., additional, Phillips, C., additional, Pigarov, A., additional, Pinsker, R., additional, Ram, A., additional, Ramakrishnan, S., additional, Raman, R., additional, Rasmussen, D., additional, Redi, M., additional, Rensink, M., additional, Rewoldt, G., additional, Robinson, J., additional, Roney, P., additional, Roquemore, L., additional, Ruskov, E., additional, Ryan, P., additional, Sabbagh, S. A., additional, Schneider, H., additional, Skinner, C. H., additional, Smith, D. R., additional, Sontag, A., additional, Soukhanovskii, V., additional, Stevenson, T., additional, Stotler, D., additional, Stratton, B., additional, Stutman, D., additional, Swain, D., additional, Synakowski, E., additional, Takase, Y., additional, Tritz, K., additional, von Halle, A., additional, Wade, M., additional, White, R., additional, Wilgen, J., additional, Williams, M., additional, Zhu, W., additional, Zweben, S. J., additional, Akers, R., additional, Beiersdorfer, P., additional, Betti, R., additional, and Bigelow, T., additional

Published
2009
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42. Modeling fast-ion transport during toroidal Alfvén eigenmode avalanches in National Spherical Torus Experiment

Author

Fredrickson, E. D., primary, Crocker, N. A., additional, Bell, R. E., additional, Darrow, D. S., additional, Gorelenkov, N. N., additional, Kramer, G. J., additional, Kubota, S., additional, Levinton, F. M., additional, Liu, D., additional, Medley, S. S., additional, Podestá, M., additional, Tritz, K., additional, White, R. B., additional, and Yuh, H., additional

Published
2009
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43. Experimental studies on fast-ion transport by Alfvén wave avalanches on the National Spherical Torus Experiment

Author

Podestà, M., primary, Heidbrink, W. W., additional, Liu, D., additional, Ruskov, E., additional, Bell, R. E., additional, Darrow, D. S., additional, Fredrickson, E. D., additional, Gorelenkov, N. N., additional, Kramer, G. J., additional, LeBlanc, B. P., additional, Medley, S. S., additional, Roquemore, A. L., additional, Crocker, N. A., additional, Kubota, S., additional, and Yuh, H., additional

Published
2009
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45. Use of Fast Ion D-Alpha diagnostics for understanding ICRF effects

Author

Podestà, M., primary, Heidbrink, W. W., additional, Liu, D., additional, Luo, Y., additional, Ruskov, E., additional, Bell, R. E., additional, Fredrickson, E. D., additional, Hosea, J. C., additional, Medley, S. S., additional, Burrell, K. H., additional, Choi, M., additional, Pinsker, R. I., additional, Harvey, R. W., additional, Bobkov, Volodymyr, additional, and Noterdaeme, Jean-Marie, additional

Published
2009
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46. Alfvén cascade modes at high β in the National Spherical Torus Experiment

Author

Crocker, N. A., primary, Fredrickson, E. D., additional, Gorelenkov, N. N., additional, Kramer, G. J., additional, Darrow, D. S., additional, Heidbrink, W. W., additional, Kubota, S., additional, Levinton, F. M., additional, Yuh, H., additional, Menard, J. E., additional, LeBlanc, B. P., additional, and Bell, R. E., additional

Published
2008
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