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305 results on '"Valeo, E."'

1. Millimeter-wave imaging of magnetic fusion plasmas: technology innovations advancing physics understanding

Author

Wang, Y, Tobias, B, Chang, Y-T, Yu, J-H, Li, M, Hu, F, Chen, M, Mamidanna, M, Phan, T, Pham, A-V, Gu, J, Liu, X, Zhu, Y, Domier, CW, Shi, L, Valeo, E, Kramer, GJ, Kuwahara, D, Nagayama, Y, Mase, A, and Luhmann, NC

Subjects
Nuclear and Plasma Physics, Physical Sciences, Biomedical Imaging, electron cyclotron emission imaging, microwave imaging reflectometry, integrated circuit, digital beamforming, synthetic diagnostics, horn antenna array, liquid crystal polymer, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas, Nuclear and plasma physics
Abstract

Electron cyclotron emission (ECE) imaging is a passive radiometric technique that measures electron temperature fluctuations; and microwave imaging reflectometry (MIR) is an active radar imaging technique that measures electron density fluctuations. Microwave imaging diagnostic instruments employing these techniques have made important contributions to fusion science and have been adopted at major fusion facilities worldwide including DIII-D, EAST, ASDEX Upgrade, HL-2A, KSTAR, LHD, and J-TEXT. In this paper, we describe the development status of three major technological advancements: custom mm-wave integrated circuits (ICs), digital beamforming (DBF), and synthetic diagnostic modeling (SDM). These have the potential to greatly advance microwave fusion plasma imaging, enabling compact and low-noise transceiver systems with real-time, fast tracking ability to address critical fusion physics issues, including ELM suppression and disruptions in the ITER baseline scenario, naturally ELM-free states such as QH-mode, and energetic particle confinement (i.e. Alfvén eigenmode stability) in highperformance regimes that include steady-state and advanced tokamak scenarios. Furthermore, these systems are fully compatible with today's most challenging non-inductive heating and current drive systems and capable of operating in harsh environments, making them the ideal approach for diagnosing long-pulse and steady-state tokamaks.

Published
2017

2. Formation of laser plasma channels in a stationary gas

Author

Dunaevsky, A., Goltsov, A., Greenberg, J., Suckewer, S., Valeo, E., and Fisch, N. J.

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

The formation of plasma channels with nonuniformity of about +- 3.5% has been demonstrated. The channels had a density of 1.2x10^19 cm-3 with a radius of 15 um and with length >= 2.5 mm. The channels were formed by 0.3 J, 100 ps laser pulses in a nonflowing gas, contained in a cylindrical chamber. The laser beam passed through the chamber along its axis via pinholes in the chamber walls. A plasma channel with an electron density on the order of 10^18 - 10^19 cm-3 was formed in pure He, N2, Ar, and Xe. A uniform channel forms at proper time delays and in optimal pressure ranges, which depend on the sort of gas. The influence of the interaction of the laser beam with the gas leaking out of the chamber through the pinholes was found insignificant. However, the formation of an ablative plasma on the walls of the pinholes by the wings of the radial profile of the laser beam plays an important role in the plasma channel formation and its uniformity. A low current glow discharge initiated in the chamber slightly improves the uniformity of the plasma channel, while a high current arc discharge leads to the formation of overdense plasma near the front pinhole and further refraction of the laser beam. The obtained results show the feasibility of creating uniform plasma channels in non-flowing gas targets., Comment: 15 pages, 7 figures, submitted to Physics of Plasmas

Published
2005
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3. A description of the full-particle-orbit-following SPIRAL code for simulating fast-ion experiments in tokamaks

Author

Kramer, GJ, Budny, RV, Bortolon, A, Fredrickson, ED, Fu, GY, Heidbrink, WW, Nazikian, R, Valeo, E, and Van Zeeland, MA

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences, Fluids & Plasmas
Abstract

The numerical methods used in the full particle-orbit following SPIRAL code are described and a number of physics studies performed with the code are presented to illustrate its capabilities. The SPIRAL code is a test-particle code and is a powerful numerical tool to interpret and plan fast-ion experiments in tokamaks. Gyro-orbit effects are important for fast ions in low-field machines such as NSTX and to a lesser extent in DIII-D. A number of physics studies are interlaced between the description of the code to illustrate its capabilities. Results on heat loads generated by a localized error-field on the DIII-D wall are compared with measurements. The enhanced Triton losses caused by the same localized error-field are calculated and compared with measured neutron signals. Magnetohydrodynamic (MHD) activity such as tearing modes and toroidicity-induced Alfvén eigenmodes (TAEs) have a profound effect on the fast-ion content of tokamak plasmas and SPIRAL can calculate the effects of MHD activity on the confined and lost fast-ion population as illustrated for a burst of TAE activity in NSTX. The interaction between ion cyclotron range of frequency (ICRF) heating and fast ions depends solely on the gyro-motion of the fast ions and is captured exactly in the SPIRAL code. A calculation of ICRF absorption on beam ions in ITER is presented. The effects of high harmonic fast wave heating on the beam-ion slowing-down distribution in NSTX is also studied. © 2013 IOP Publishing Ltd.

Published
2013

4. Excitation of Large-ktheta Ion-Berstein Waves in Tokamaks

Author

Valeo, E. J. and Fisch, N. J.

Subjects
Physics - Plasma Physics
Abstract

The mode-converted ion-Bernstein wave excited in tokamaks is shown to exhibit certain very interesting behavior, including the attainment of very small poloidal phase velocities, the reversal of poloidal direction, and up-down asymmetries in propagation and damping. Because of these effects, this wave holds promise for channeling {$\alpha$-particle}\ power to ions, something that would make a tokamak fusion reactor far more attractive than presently envisioned., Comment: Postscript file (from LaTex), 5 pages, including 3 figures. This paper has been published as Physical Review Letters, 73, 3536 - 3539 (1994). Source files and figures are in ftp://ftp.pppl.gov/pub/valeo/bw/ Latex files: IBWletter.tex, IBWintro.tex, IBWref.tex. Included Postscript figure files: IBWfig1.ps, IBWfig2.ps, IBWfig3.ps. Style file: psfig.sty

Published
1995

5. Challenges in self-consistent full-wave simulations of lower hybrid waves

Author

Wright, J.C., Jungpyo Lee, Valeo, E., Bonoli, P., Phillips, C.K., Jaeger, E.F., and Harvey, R.W.

Subjects
Monte Carlo method -- Usage, Plasma devices -- Design and construction, Tokamaks -- Research, Wave-motion, Theory of -- Analysis, X-rays -- Analysis, Business, Chemistry, Electronics, Electronics and electrical industries
Published
2010

11. Advances in High-harmonic Fast Wave Physics in the National Spherical Torus Experiment

Author

Taylor, G, primary, Hosea, J C, additional, LeBlanc, B P, additional, Phillips, C K, additional, Podesta, M, additional, Valeo, E J, additional, Wilson, J R, additional, Ahn, J -W, additional, Chen, G, additional, Green, D L, additional, Jaeger, E F, additional, Maingi, R, additional, Ryan, P M, additional, Wilgen, J B, additional, Heidbrink, W W, additional, Liu, D, additional, Bonoli, P T, additional, Brecht, T, additional, and Choi, M, additional

Published
2009
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16. Accessibility for lower hybrid waves in PBX-M

Author

Takahashi, H., primary, Bell, R., additional, Bernabei, S., additional, Chance, M., additional, Chu, T.K., additional, Gettelfinger, G., additional, Greenough, N., additional, Hatcher, R., additional, Ignat, D., additional, Jardin, S., additional, Kaita, R., additional, Kaye, S., additional, Kugel, H., additional, LeBlanc, B., additional, Manickam, J., additional, Okabayashi, M., additional, Ono, M., additional, Paul, S., additional, Perkins, F., additional, Sauthoff, N., additional, Sesnic, S., additional, Sun, Y., additional, Tighe, W., additional, Valeo, E., additional, von Goeler, S., additional, Batha, S., additional, Levinton, F., additional, Dunlap, J., additional, England, A., additional, Harris, J., additional, Hirshman, S., additional, Isler, R., additional, Post-Zwicker, A., additional, Jones, S., additional, Kesner, J., additional, Luckhardt, S., additional, Paoletti, F., additional, Schmitz, L., additional, and Tynan, G., additional

Published
1993
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17. Experimental exploration of profile control in the Princeton Beta Experiment-Modified (PBX-M) tokamak

Author

Bernabei, S., primary, Bell, R., additional, Chance, M., additional, Chu, T.K., additional, Corneliussen, M., additional, Davis, W., additional, Gettelfinger, G., additional, Gibney, T., additional, Greenough, N., additional, Hatcher, R., additional, Hermann, H., additional, Ignat, D., additional, Jardin, S., additional, Kaita, R., additional, Kaye, S., additional, Kessel, C., additional, Kozub, T., additional, Hugel, H., additional, Lagin, L., additional, LeBlanc, B., additional, Manickam, J., additional, Okabayashi, M., additional, Oliver, H., additional, Ono, M., additional, Paul, S., additional, Preische, S., additional, Roney, P., additional, Sauthoff, N., additional, Schweitzer, S., additional, Sesnic, S., additional, Sun, Y., additional, Takahashi, H., additional, Tighe, W., additional, Valeo, E., additional, von Goeler, S., additional, Voss, K., additional, Mauel, M., additional, Navratil, G., additional, Cesario, R., additional, Batha, S., additional, Levinton, F., additional, Rimini, F., additional, Asakura, N., additional, Jones, S., additional, Kesner, J., additional, Luckhardt, S., additional, Paoletti, F., additional, Woskov, P., additional, Zolfaghari, A., additional, Seki, T., additional, Bell, J., additional, Dunlap, J., additional, England, A., additional, Greenwood, D., additional, Harris, J., additional, Henkel, G., additional, Hirshman, S., additional, Isler, R., additional, Lee, D., additional, Blush, L., additional, Conn, R., additional, Doerner, R., additional, Hirooka, Y., additional, Lehmer, R., additional, Schmitz, L., additional, and Tynan, G., additional

Published
1993
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22. Effect of the scrape-off layer in AORSA full wave simulations of fast wave minority, mid/high harmonic, and helicon heating regimes

Author

Bertelli, N., primary, Jaeger, E. F., additional, Lau, C., additional, Blazevski, D., additional, Green, D. L., additional, Berry, L., additional, Bonoli, P. T., additional, Gerhardt, S., additional, Hosea, J. C., additional, LeBlanc, B., additional, Perkins, R. J., additional, Phillips, C. K., additional, Pinsker, R. I., additional, Prater, R., additional, Qin, C. M., additional, Ryan, P. M., additional, Taylor, G., additional, Valeo, E. J., additional, Wilson, J. R., additional, Wright, J. C., additional, and Zhang, X. J., additional

Published
2015
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28. Fast wave heating in the NSTX-Upgrade device

Author

Bertelli, N., primary, Jaeger, E. F., additional, Berry, L., additional, Bonoli, P. T., additional, Budny, R., additional, Fu, G.-Y., additional, Gerhardt, S., additional, Green, D. L., additional, Harvey, R. W., additional, Hosea, J. C., additional, Kramer, G. J., additional, LeBlanc, B., additional, Perkins, R. J., additional, Phillips, C. K., additional, Ryan, P., additional, Taylor, G., additional, Valeo, E. J., additional, Wilson, J. R., additional, and Wright, J. C., additional

Published
2014
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34. High non-inductive fraction H-mode discharges generated by high-harmonic fast wave heating and current drive in the National Spherical Torus Experiment

Author

Taylor, G., primary, Hosea, J. C., additional, Kessel, C. E., additional, LeBlanc, B. P., additional, Mueller, D., additional, Phillips, C. K., additional, Valeo, E. J., additional, Wilson, J. R., additional, Ryan, P. M., additional, Bonoli, P. T., additional, Wright, J. C., additional, and Harvey, R. W., additional

Published
2012
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36. Observation of amplification of light by Langmuir waves and its saturation on the electron kinetic timescale

Author

KIRKWOOD, R. K., primary, PING, Y., additional, WILKS, S. C., additional, MEEZAN, N., additional, MICHEL, P., additional, WILLIAMS, E., additional, CLARK, D., additional, SUTER, L., additional, LANDEN, O., additional, FISCH, N. J., additional, VALEO, E. J., additional, MALKIN, V., additional, TURNBULL, D., additional, SUCKEWER, S., additional, WURTELE, J., additional, WANG, T. L., additional, MARTINS, S. F., additional, JOSHI, C., additional, YIN, L., additional, ALBRIGHT, B. J., additional, ROSE, H. A., additional, and BOWERS, K. J., additional

Published
2010
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39. Advances in high-harmonic fast wave physics in the National Spherical Torus Experiment

Author

Taylor, G., primary, Bell, R. E., additional, Hosea, J. C., additional, LeBlanc, B. P., additional, Phillips, C. K., additional, Podesta, M., additional, Valeo, E. J., additional, Wilson, J. R., additional, Ahn, J-W., additional, Chen, G., additional, Green, D. L., additional, Jaeger, E. F., additional, Maingi, R., additional, Ryan, P. M., additional, Wilgen, J. B., additional, Heidbrink, W. W., additional, Liu, D., additional, Bonoli, P. T., additional, Brecht, T., additional, Choi, M., additional, and Harvey, R. W., additional

Published
2010
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41. Lower hybrid heating and current drive on the Alcator C-Mod tokamak

Author

Wilson, J.R., primary, Parker, R., additional, Bitter, M., additional, Bonoli, P.T., additional, Fiore, C., additional, Harvey, R.W., additional, Hill, K., additional, Hubbard, A.E., additional, Hughes, J.W., additional, Ince-Cushman, A., additional, Kessel, C., additional, Ko, J.S., additional, Meneghini, O., additional, Phillips, C.K., additional, Porkolab, M., additional, Rice, J., additional, Schmidt, A.E., additional, Scott, S., additional, Shiraiwa, S., additional, Valeo, E., additional, Wallace, G., additional, and Wright, J.C., additional

Published
2009
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42. Overview of the Alcator C-Mod Research Program

Author

Marmar, E., primary, Bader, A., additional, Bakhtiari, M., additional, Barnard, H., additional, Beck, W., additional, Bespamyatnov, I., additional, Binus, A., additional, Bonoli, P., additional, Bose, B., additional, Bitter, M., additional, Cziegler, I., additional, Dekow, G., additional, Dominguez, A., additional, Duval, B., additional, Edlund, E., additional, Ernst, D., additional, Ferrara, M., additional, Fiore, C., additional, Fredian, T., additional, Graf, A., additional, Granetz, R., additional, Greenwald, M., additional, Grulke, O., additional, Gwinn, D., additional, Harrison, S., additional, Harvey, R., additional, Hender, T.C., additional, Hosea, J., additional, Hill, K., additional, Howard, N., additional, Howell, D.F., additional, Hubbard, A., additional, Hughes, J.W., additional, Hutchinson, I., additional, Ince-Cushman, A., additional, Irby, J., additional, Izzo, V., additional, Kanojia, A., additional, Kessel, C., additional, Ko, J.S., additional, Koert, P., additional, LaBombard, B., additional, Lau, C., additional, Lin, L., additional, Lin, Y., additional, Lipschultz, B., additional, Liptac, J., additional, Ma, Y., additional, Marr, K., additional, May, M., additional, McDermott, R., additional, Meneghini, O., additional, Mikkelsen, D., additional, Ochoukov, R., additional, Parker, R., additional, Phillips, C.K., additional, Phillips, P., additional, Podpaly, Y., additional, Porkolab, M., additional, Reinke, M., additional, Rice, J., additional, Rowan, W., additional, Scott, S., additional, Schmidt, A., additional, Sears, J., additional, Shiraiwa, S., additional, Sips, A., additional, Smick, N., additional, Snipes, J., additional, Stillerman, J., additional, Takase, Y., additional, Terry, D., additional, Terry, J., additional, Tsujii, N., additional, Valeo, E., additional, Vieira, R., additional, Wallace, G., additional, Whyte, D., additional, Wilson, J.R., additional, Wolfe, S., additional, Wright, G., additional, Wright, J., additional, Wukitch, S., additional, Wurden, G., additional, Xu, P., additional, Zhurovich, K., additional, Zaks, J., additional, and Zweben, S., additional

Published
2009
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46. Simulation of high-power electromagnetic wave heating in the ITER burning plasma

Author

Jaeger, E. F., primary, Berry, L. A., additional, D’Azevedo, E. F., additional, Barrett, R. F., additional, Ahern, S. D., additional, Swain, D. W., additional, Batchelor, D. B., additional, Harvey, R. W., additional, Myra, J. R., additional, D’Ippolito, D. A., additional, Phillips, C. K., additional, Valeo, E., additional, Smithe, D. N., additional, Bonoli, P. T., additional, Wright, J. C., additional, and Choi, M., additional

Published
2008
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47. Amplification of an ultrashort pulse laser by stimulated Raman scattering of a 1ns pulse in a low density plasma

Author

Kirkwood, R. K., primary, Dewald, E., additional, Niemann, C., additional, Meezan, N., additional, Wilks, S. C., additional, Price, D. W., additional, Landen, O. L., additional, Wurtele, J., additional, Charman, A. E., additional, Lindberg, R., additional, Fisch, N. J., additional, Malkin, V. M., additional, and Valeo, E. O., additional

Published
2007
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48. Evolution of nonthermal particle distributions in radio frequency heating of fusion plasmas

Author

Bonoli, P T, primary, Batchelor, D B, additional, Berry, L A, additional, Choi, M, additional, D'Ippolito, D A, additional, Harvey, R W, additional, Jaeger, E F, additional, Myra, J R, additional, Phillips, C K, additional, Smithe, D N, additional, Tang, V, additional, Valeo, E, additional, Wright, J C, additional, Brambilla, M, additional, Bilato, R, additional, Lancellotti, V, additional, and Maggiora, R, additional

Published
2007
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50. ICRF Heating with ω

Author

Phillips, C. K., primary, Bonoli, P. T., additional, Hosea, J. C., additional, Lin, Y., additional, Porkolab, M., additional, Valeo, E. J., additional, Wilson, J. R., additional, Wright, J. C., additional, Wukitch, S. J., additional, Ryan, Philip M., additional, and Rasmussen, David, additional

Published
2007
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