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106 results on '"Peng, Y. -K. M."'

1. Assessing Proton-Boron Fusion Feasibility under non-Thermal Equilibrium Conditions: Rider's Inhibition Revisited

Author

Liu, S. J., Wu, D., Liu, B., Peng, Y. -K. M., Dong, J. Q., Liang, T. Y., and Sheng, Z. M.

Subjects
Physics - Plasma Physics
Abstract

Compared to the D-T reaction, the neutron-free proton-boron (p-$^{11}$B) fusion has garnered increasing attention in recent years. However, significant Bremsstrahlung losses pose a formidable challenge in p-$^{11}$B plasmas in achieving $Q>1$ in thermal equilibrium. The primary aim of this study is to corroborate Todd H. Rider's seminal work in the 1997 Physics of Plasmas, who investigated the feasibility of sustaining p-$^{11}$B fusion under non-thermal equilibrium conditions. Employing a series of simulations with new fusion cross-section, we assessed the minimum recirculating power that must be recycled to maintain the system's non-thermal equilibrium and found that it is substantially greater than the fusion power output, aligning with Rider's conclusions, whether under the conditions of non-Maxwellian electron distribution or Maxwellian electron distribution, reactors reliant on non-equilibrium plasmas for p-$^{11}$B fusion are unlikely to achieve net power production without the aid of highly efficient external heat engines. However, maintaining the ion temperature at 300 keV and the Coulomb logarithm at 15, while increasing the electron temperature beyond 23.33 keV set by Rider, leads to diminished electron-ion energy transfer and heightened Bremsstrahlung radiation. When the electron temperature approaches approximately 140 keV, this progression ultimately leads to a scenario where the power of Bremsstrahlung loss equals the power of electron-ion interactions, yet remains inferior to the fusion power. Consequently, this results in a net gain in energy production.

Published
2024

2. Investigation of the effectiveness of non-inductive `multi-harmonic' electron cyclotron current drive through modeling multi-pass absorptions in the EXL-50 spherical tokamak

Author

Banerjee, D., Song, S. D., Xie, H. S., Liu, B., Wang, M. Y., Liu, W. J., Chen, B., Han, L., Luo, D., Song, Y. Y., Petrov, Yu. V., Song, X. M., Liu, M. S., Harvey, R. W., Shi, Y. J., Peng, Y. K. M., and team, the EXL50

Subjects
Physics - Plasma Physics
Abstract

The effectiveness of multiple electron cyclotron resonance (ECR) harmonics has been thoroughly investigated in context of high current drive efficiency, generally observed in fully non-inductive operation of the low aspect ratio EXL-50 spherical tokamak (ST) powered by electron cyclotron (EC) waves. The Fokker-Plank equation is numerically solved to obtain electron distribution function, under steady state of the relativistic nonlinear Coulomb collision and quasi-linear diffusion operators, for calculating plasma current driven by the injected EC wave. For the extra-ordinary EC wave, simulation results unfold a mechanism by which electrons moving around the cold second harmonic ECR layer strongly resonate with higher harmonics via the relativistic Doppler shifted resonance condition. This feature is in fact evident above a certain value of input EC wave power in simulation, indicating it to be a non-linear phenomenon. Similar to the experimental observation, high efficiency in current drive (over 1 A/W) has indeed been found in simulation for a typical low density ($\sim 1\times10^{18}~m^{-3}$), low temperature ($\lesssim 100$ eV) plasma of EXL-50 by taking into account multi-pass absorptions in our simulation model. However, such characteristic is not found in the ordinary EC-wave study for both single-pass and multi-pass simulations, suggesting it as inefficient in driving current on our ST device., Comment: 22 pages, 15 figures. Submitted to the Nuclear Fusion journal

Published
2021

3. Design of a Finline Antenna for Current Drive in Tst-2

Author

Watanabe, Osamu, primary, Ko, Yongtae, additional, Tsujii, Naoto, additional, Takase, Y., additional, Ejiri, Akira, additional, Shinohara, K., additional, Peng, Yi, additional, Iwasaki, Kotaro, additional, Yamada, Iwao, additional, Yatomi, Go, additional, Moeller, Charles P., additional, and Peng, Y.-K. M., additional

Published
2022
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5. Investigation of the effectiveness of non-inductive 'multi-harmonic' electron cyclotron current drive through modeling multi-pass absorptions in the EXL-50 spherical tokamak

Author

Banerjee, D., Song, S. D., Xie, H. S., Liu, B., Wang, M. Y., Liu, W. J., Chen, B., Han, L., Luo, D., Song, Y. Y., Petrov, Yu. V., Song, X. M., Liu, M. S., Harvey, R. W., Shi, Y. J., Peng, Y. K. M., and team, the EXL50

Subjects
Plasma Physics (physics.plasm-ph), FOS: Physical sciences, Physics - Plasma Physics
Abstract

The effectiveness of multiple electron cyclotron resonance (ECR) harmonics has been thoroughly investigated in context of high current drive efficiency, generally observed in fully non-inductive operation of the low aspect ratio EXL-50 spherical tokamak (ST) powered by electron cyclotron (EC) waves. The Fokker-Plank equation is numerically solved to obtain electron distribution function, under steady state of the relativistic nonlinear Coulomb collision and quasi-linear diffusion operators, for calculating plasma current driven by the injected EC wave. For the extra-ordinary EC wave, simulation results unfold a mechanism by which electrons moving around the cold second harmonic ECR layer strongly resonate with higher harmonics via the relativistic Doppler shifted resonance condition. This feature is in fact evident above a certain value of input EC wave power in simulation, indicating it to be a non-linear phenomenon. Similar to the experimental observation, high efficiency in current drive (over 1 A/W) has indeed been found in simulation for a typical low density ($\sim 1\times10^{18}~m^{-3}$), low temperature ($\lesssim 100$ eV) plasma of EXL-50 by taking into account multi-pass absorptions in our simulation model. However, such characteristic is not found in the ordinary EC-wave study for both single-pass and multi-pass simulations, suggesting it as inefficient in driving current on our ST device., Comment: 22 pages, 15 figures. Submitted to the Nuclear Fusion journal

Published
2021
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6. Potential minimum cost of electricity of superconducting coil tokamak power reactors

Author

Reid, R. L., Peng Y.-K. M., and Peng, Y.-K. M.

Abstract

The potential minimum cost of electricity (COE) for superconducting tokamak power reactors is estimated by increasing the physics (confinement, beta limit, bootstrap current fraction) and technology (neutral beam energy, toroidal field (TF) coil allowable stresses, divertor heat flux, superconducting coil critical field, critical temperature, and quench temperature rise) constraints far beyond those assumed for ITER until the point of diminishing returns is reached. A version of the TETRA systems code, calibrated with the ITER design and modified for power reactors, is used for this analysis, limiting this study to reactors with the same basic device configuration and costing algorithms as ITER. A minimum COE is reduced from >200 to about 80 mill/kWh when the allowable design constraints are raised to 2 times those of ITER. At 4 times the ITER allowables, a minimum COE of about 60 mill/kWh is obtained. The corresponding tokamak has a major radius of approximately 4 m, a plasma current close to 10 MA, an aspect ratio of 4, a confinement H- factor {le}3, a beta limit of approximately 2 times the first stability regime, a divertor heat flux of about 20 MW/m{sup 2}, a {Beta}{sub max} {le} 18 T, and a TF coil average current density about 3 times that of ITER. The design constraints that bound the minimum COE are the allowable stresses in the TF coil, the neutral beam energy, and the 99% bootstrap current (essentially free current drive). 14 refs., 4 figs., 2 tabs.

Published
2008

8. Status of and prospects for advanced tokamak regimes from multi-machine comparisons using the 'International Tokamak Physics Activity' database

Author

Litaudon, X., Barbato, E., Bécoulet, A., Doyle, E. J., Fujita, T., Gohil, P., Imbeaux, F., Sips, G., Connor, J. W., Eipchuk, Yu., Fukuda, T., Kinsey, J., Kirneva, A. S., Lebedev, S., Mukhovatov, E. J. M., Rice, J., Synakowski, E., Toi, K., Unterberg, B., Vershkov, V., Wakatani, M., Aniel, T., Baranov, Yu. F., Bourdelle, C., Bracco, G., Budny, I. L., Buratti, P., Esposito, B., Ide, S., Field, A. R., Gormezano, C., Greenfield, C., Greenwald, M., Hahm, T. S., Hoang, G. T., Hobirk, J., Hogeweij, D., Isayama, A., Joffrin, E., Kamada, Y., Luce, T. C., Murakami, M., Parail, V., Peng, Y. K. M., Ryter, F., Sakamoto, Y., Shirai, H., Suzuki, T., Takenaga, H., Takizuka, T., Tala, T., Wade, M. R., Weiland, J., Litaudon, X., Barbato, E., Bécoulet, A., Doyle, E. J., Fujita, T., Gohil, P., Imbeaux, F., Sips, G., Connor, J. W., Eipchuk, Yu., Fukuda, T., Kinsey, J., Kirneva, A. S., Lebedev, S., Mukhovatov, E. J. M., Rice, J., Synakowski, E., Toi, K., Unterberg, B., Vershkov, V., Wakatani, M., Aniel, T., Baranov, Yu. F., Bourdelle, C., Bracco, G., Budny, I. L., Buratti, P., Esposito, B., Ide, S., Field, A. R., Gormezano, C., Greenfield, C., Greenwald, M., Hahm, T. S., Hoang, G. T., Hobirk, J., Hogeweij, D., Isayama, A., Joffrin, E., Kamada, Y., Luce, T. C., Murakami, M., Parail, V., Peng, Y. K. M., Ryter, F., Sakamoto, Y., Shirai, H., Suzuki, T., Takenaga, H., Takizuka, T., Tala, T., Wade, M. R., and Weiland, J.

Abstract

This version is available at the following Publisher URL: http://stacks.iop.org/0741-3335/46/A19

Published
2004

9. Macroscopic Lagrangian description of warm plasmas. I Formulation of the Lagrangian

Author

Peng, Y.-K. M and Crawford, F. W

Subjects
Plasma Physics
Abstract

A macroscopic Lagrangian is derived which includes a pressure tensor, heat conduction, and elastic collisions. Its Euler-Lagrange equations are shown to be the Maxwell equations and the macroscopic force law. The corresponding Hamiltonian is derived, and Hamilton's canonical equations are also demonstrated to lead to the Maxwell equations and the macroscopic force law. The treatment is facilitated by working in a mixture of Eulerian coordinates (for the fields) and Lagrangian coordinates (for the particle motions), and the introduction of a macroscopic potential expressed in terms of the plasma thermal energy and the energy losses by heat conduction.

Published
1983

10. Lagrangian density for collisional plasma

Author

Peng, Y.-K. M

Subjects
Plasma Physics
Abstract

For the purpose of deriving appropriate Lagrangians for plasma equations that include effects of energy loss, the paper examines the inverse problem of the calculus of variations for systems of first- and second-order quasi-linear partial differential equations. This results in convenient forms of the sufficient conditions under which the given differential equations are Euler-Lagrange equations of a Lagrangian. These conditions are then applied to determine the necessary transformation that converts equations, apparently not already in it, into Euler-Lagrange form. The appropriate Lagrangian for a warm collisional plasma is obtained, and the Lagrangian is derived for a resistive transmission line.

Published
1976

11. Variational calculations for resonance oscillations of inhomogeneous plasmas

Author

Peng, Y.-K. M and Crawford, F. W

Subjects
Plasma Physics
Abstract

The electrostatic resonance properties of an inhomogeneous plasma column are treated by the Rayleigh-Ritz method. In contrast to Parker, Nickel & Gould (1964), who carried out an exact computation, the present treatment uses a description of the RF equation of motion and pressure term that allows one to express the system of equations in Euler-Lagrange form. The Rayleigh-Ritz procedure is then applied to the corresponding Lagrangian, to obtain approximate resonance frequences and eigenfunctions. An appropriate set of trial coordinate functions is defined, which leads to frequency and eigenfunction estimates in excellent agreement with the work of Parker et al. (1964).

Published
1975

12. Microscopic plasma Hamiltonian

Author

Peng, Y.-K. M

Subjects
Plasma Physics
Abstract

A Hamiltonian for the microscopic plasma model is derived from the Low Lagrangian after the dual roles of the generalized variables are taken into account. The resulting Hamilton equations are shown to agree with the Euler-Lagrange equations of the Low Lagrangian.

Published
1974
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13. A comparison between theory and experiments on non-linear three-wave interactions in plasmas

Author

Peng, Y.-K. M

Subjects
Plasma Physics
Abstract

Quantitative comparisons between theory and experiments on non-linear three-wave interactions in a nearly homogeneous plasma are presented in this paper. First, the theoretical spatial behaviour of signal and idler waves excited by a large amplitude pump wave is predicted, with damping of all waves included. These results are then specialized to allow detailed quantitative comparisons to be made with available experimental data on parametrically excited ion-acoustic waves. Where good agreement is obtained, the comparison indicates further measurements required to verify more completely the basic theory of three-wave interactions in plasmas. Where wide disagreement is obtained, the comparison indicates possible directions in which the theory might be improved.

Published
1974

14. A macroscopic plasma Lagrangian and its application to wave interactions and resonances

Author

Peng, Y. K. M

Subjects
Physics, Plasma
Abstract

The derivation of a macroscopic plasma Lagrangian is considered, along with its application to the description of nonlinear three-wave interaction in a homogeneous plasma and linear resonance oscillations in a inhomogeneous plasma. One approach to obtain the Lagrangian is via the inverse problem of the calculus of variations for arbitrary first and second order quasilinear partial differential systems. Necessary and sufficient conditions for the given equations to be Euler-Lagrange equations of a Lagrangian are obtained. These conditions are then used to determine the transformations that convert some classes of non-Euler-Lagrange equations to Euler-Lagrange equation form. The Lagrangians for a linear resistive transmission line and a linear warm collisional plasma are derived as examples. Using energy considerations, the correct macroscopic plasma Lagrangian is shown to differ from the velocity-integrated low Lagrangian by a macroscopic potential energy that equals twice the particle thermal kinetic energy plus the energy lost by heat conduction.

Published
1974

15. Variational calculations for resonance oscillations of inhomogeneous plasmas

Author

Peng, Y. K. M and Crawford, F. W

Subjects
Physics, Plasma
Abstract

The electrostatic resonance properties of an inhomogeneous plasma column are reported by application of the Rayleigh-Ritz method. A description of the rf equation of motion and pressure term that expresses the system of equations in Euler-Lagrange form is presented. The Rayleigh-Ritz procedure is applied to the corresponding Lagrangian to obtain approximate resonance frequencies and eigenfunctions. An appropriate set of trial coordinate functions is defined, which leads to frequency and eigenfunction estimates.

Published
1973

16. Progress on advanced tokamak and steady-state scenario development on DIII-D and NSTX

Author

Doyle, E J, primary, Garofalo, A M, additional, Greenfield, C M, additional, Kaye, S M, additional, Menard, J E, additional, Murakami, M, additional, Sabbagh, S A, additional, Austin, M E, additional, Bell, R E, additional, Burrell, K H, additional, Ferron, J R, additional, Gates, D A, additional, Groebner, R J, additional, Hyatt, A W, additional, Jayakumar, R J, additional, Kinsey, J E, additional, LeBlanc, B P, additional, Luce, T C, additional, McKee, G R, additional, Okabayashi, M, additional, Peng, Y-K M, additional, Petty, C C, additional, Politzer, P A, additional, Rhodes, T L, additional, Wade, M R, additional, Waltz, R E, additional, DIII-D, the, additional, and Teams, NSTX Research, additional

Published
2006
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17. A component test facility based on the spherical tokamak

Author

Peng, Y-K M, primary, Fogarty, P J, additional, Burgess, T W, additional, Strickler, D J, additional, Nelson, B E, additional, Tsai, J, additional, Neumeyer, C A, additional, Bell, R, additional, Kessel, C, additional, Menard, J, additional, Gates, D, additional, LeBlanc, B, additional, Mikkelsen, D, additional, Fredrickson, E, additional, Grisham, L, additional, Schmidt, J, additional, Rutherford, P, additional, Sabbagh, S, additional, Field, A, additional, Sykes, A, additional, Cook, I, additional, Mitarai, O, additional, and Takase, Y, additional

Published
2005
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19. Fusion Engineering and Plasma Science Conditions of Spherical Torus Component Test Facility

Author

Peng, Y.-K. M., primary, Neumeyer, C. A., additional, Fogarty, P. J., additional, Kessel, C., additional, Strickler, D. J., additional, Rutherford, P., additional, Mikkelsen, D., additional, Burgess, T. W., additional, Sabbagh, S, additional, Menard, J., additional, Gates, D, additional, Bell, R, additional, LeBlanc, B, additional, Mitarai, O., additional, Schmidt, J., additional, Synakowski, E., additional, Tsai, J., additional, Grisham, L., additional, Nelson, B. E., additional, Cheng, E. T., additional, and El-Guebaly, L., additional

Published
2005
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20. Spherical Tokamak Plasma Science and Fusion Energy Component Testing

Author

Peng, Y.-K. M., primary, Fogarty, P. J., additional, Burgess, T. W., additional, Strickler, D. J., additional, Tsai, J., additional, Neumeyer, C. A., additional, Kessel, C., additional, Rutherford, P., additional, Schmidt, J., additional, Mikkelsen, D., additional, Menard, J., additional, Gates, D., additional, Bell, R., additional, LeBlanc, B., additional, Synakowski, E., additional, Grisham, L., additional, Sabbagh, S., additional, Mitarai, O., additional, and El-Guebaly, L., additional

Published
2005
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21. Status of and prospects for advanced tokamak regimes from multi-machine comparisons using the International Tokamak Physics Activity database

Author

Litaudon, X, primary, Barbato, E, additional, Bécoulet, A, additional, Doyle, E J, additional, Fujita, T, additional, Gohil, P, additional, Imbeaux, F, additional, Sauter, O, additional, Sips, G, additional, Physics, for the International Tokamak Physi, additional, Connor, J W, additional, Esipchuk, Yu, additional, Fukuda, T, additional, Kinsey, J, additional, Kirneva, N, additional, Lebedev, S, additional, Litaudon, X, additional, Mukhovatov, V, additional, Rice, J, additional, Synakowski, E, additional, Toi, K, additional, Unterberg, B, additional, Vershkov, V, additional, Wakatani, M, additional, regimes, for the International ITB Database, additional, Aniel, T, additional, Baranov, Yu F, additional, Behn, R, additional, Bourdelle, C, additional, Bracco, G, additional, Budny, R V, additional, Buratti, P, additional, Esposito, B, additional, Ide, S, additional, Field, A R, additional, Gormezano, C, additional, Greenfield, C, additional, Greenwald, M, additional, Hahm, T S, additional, Hoang, G T, additional, Hobirk, J, additional, Hogeweij, D, additional, Isayama, A, additional, Joffrin, E, additional, Kamada, Y, additional, Luce, T C, additional, Murakami, M, additional, Parail, V, additional, Peng, Y-K M, additional, Ryter, F, additional, Sakamoto, Y, additional, Shirai, H, additional, Suzuki, T, additional, Takenaga, H, additional, Takizuka, T, additional, Tala, T, additional, Wade, M R, additional, and Weiland, J, additional

Published
2004
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22. Progress towards high-performance, steady-state spherical torus

Author

Ono, M, primary, Bell, M G, additional, Bell, R E, additional, Bigelow, T, additional, Bitter, M, additional, Blanchard, W, additional, Boedo, J, additional, Bourdelle, C, additional, Bush, C, additional, Choe, W, additional, Chrzanowski, J, additional, Darrow, D S, additional, Diem, S J, additional, Doerner, R, additional, Efthimion, P C, additional, Ferron, J R, additional, Fonck, R J, additional, Fredrickson, E D, additional, Garstka, G D, additional, Gates, D A, additional, Gray, T, additional, Grisham, L R, additional, Heidbrink, W, additional, Hill, K W, additional, Hoffman, D, additional, Jarboe, T R, additional, Johnson, D W, additional, Kaita, R, additional, Kaye, S M, additional, Kessel, C, additional, Kim, J H, additional, Kissick, M W, additional, Kubota, S, additional, Kugel, H W, additional, LeBlanc, B P, additional, Lee, K, additional, Lee, S G, additional, Lewicki, B T, additional, Luckhardt, S, additional, Maingi, R, additional, Majeski, R, additional, Manickam, J, additional, Maqueda, R, additional, Mau, T K, additional, Mazzucato, E, additional, Medley, S S, additional, Menard, J, additional, Mueller, D, additional, Nelson, B A, additional, Neumeyer, C, additional, Nishino, N, additional, Ostrander, C N, additional, Pacella, D, additional, Paoletti, F, additional, Park, H K, additional, Park, W, additional, Paul, S F, additional, Peng, Y-K M, additional, Phillips, C K, additional, Pinsker, R, additional, Probert, P H, additional, Ramakrishnan, S, additional, Raman, R, additional, Redi, M, additional, Roquemore, A L, additional, Rosenberg, A, additional, Ryan, P M, additional, Sabbagh, S A, additional, Schaffer, M, additional, Schooff, R J, additional, Seraydarian, R, additional, Skinner, C H, additional, Sontag, A C, additional, Soukhanovskii, V, additional, Spaleta, J, additional, Stevenson, T, additional, Stutman, D, additional, Swain, D W, additional, Synakowski, E, additional, Takase, Y, additional, Tang, X, additional, Taylor, G, additional, Timberlake, J, additional, Tritz, K L, additional, Unterberg, E A, additional, Halle, A Von, additional, Wilgen, J, additional, Williams, M, additional, Wilson, J R, additional, Xu, X, additional, Zweben, S J, additional, Akers, R, additional, Barry, R E, additional, Beiersdorfer, P, additional, Bialek, J M, additional, Blagojevic, B, additional, Bonoli, P T, additional, Carter, M D, additional, Davis, W, additional, Deng, B, additional, Dudek, L, additional, Egedal, J, additional, Ellis, R, additional, Finkenthal, M, additional, Foley, J, additional, Fredd, E, additional, Glasser, A, additional, Gibney, T, additional, Gilmore, M, additional, Goldston, R J, additional, Hatcher, R E, additional, Hawryluk, R J, additional, Houlberg, W, additional, Harvey, R, additional, Jardin, S C, additional, Hosea, J C, additional, Ji, H, additional, Kalish, M, additional, Lowrance, J, additional, Lao, L L, additional, Levinton, F M, additional, Luhmann, N C, additional, Marsala, R, additional, Mastravito, D, additional, Menon, M M, additional, Mitarai, O, additional, Nagata, M, additional, Oliaro, G, additional, Parsells, R, additional, Peebles, T, additional, Peneflor, B, additional, Piglowski, D, additional, Porter, G D, additional, Ram, A K, additional, Rensink, M, additional, Rewoldt, G, additional, Robinson, J, additional, Roney, P, additional, Shaing, K, additional, Shiraiwa, S, additional, Sichta, P, additional, Stotler, D, additional, Stratton, B C, additional, Vero, R, additional, Wampler, W R, additional, and Wurden, G A, additional

Published
2003
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23. Recent results from the National Spherical Torus Experiment

Author

Maingi, R, primary, Bell, M G, additional, Bell, R E, additional, Bialek, J, additional, Bourdelle, C, additional, Bush, C E, additional, Darrow, D S, additional, Fredrickson, E D, additional, Gates, D A, additional, Gilmore, M, additional, Gray, T, additional, Jarboe, T R, additional, Johnson, D W, additional, Kaita, R, additional, Kaye, S M, additional, Kubota, S, additional, Kugel, H W, additional, LeBlanc, B P, additional, Maqueda, R J, additional, Mastrovito, D, additional, Medley, S S, additional, Menard, J E, additional, Mueller, D, additional, Nelson, B A, additional, Ono, M, additional, Paoletti, F, additional, Park, H K, additional, Paul, S F, additional, Peebles, T, additional, Peng, Y-K M, additional, Phillips, C K, additional, Raman, R, additional, Rosenberg, A L, additional, Roquemore, A L, additional, Ryan, P M, additional, Sabbagh, S A, additional, Skinner, C H, additional, Soukhanovskii, V A, additional, Stutman, D, additional, Swain, D W, additional, Synakowski, E J, additional, Taylor, G, additional, Wilgen, J, additional, Wilson, J R, additional, Wurden, G A, additional, Zweben, S J, additional, and Team, the NSTX, additional

Published
2003
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24. Evolution and termination of H-modes in NSTX

Author

Bush, C E, primary, Maingi, R, additional, Bell, M G, additional, Bell, R E, additional, Fredrickson, E D, additional, Gates, D A, additional, Kaye, S M, additional, Kubota, S, additional, Kugel, H W, additional, LeBlanc, B P, additional, Maqueda, R, additional, Medley, S, additional, Menard, J E, additional, Mueller, D, additional, Paoletti, F, additional, Paul, S, additional, Sabbagh, S A, additional, Soukhanovskii, V A, additional, Stutman, D, additional, Taylor, G, additional, Zweben, S J, additional, Johnson, D W, additional, Kaita, R, additional, Ono, M, additional, Peng, Y-K M, additional, Roquemore, A L, additional, and Synakowski, E J, additional

Published
2002
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25. Initial studies of core and edge transport of NSTX plasmas

Author

Synakowski, E J, primary, Bell, M G, additional, Bell, R E, additional, Bush, C E, additional, Bourdelle, C, additional, Darrow, D, additional, Dorland, W, additional, Ejiri, A, additional, Fredrickson, E D, additional, Gates, D A, additional, Kaye, S M, additional, Kubota, S, additional, Kugel, H W, additional, LeBlanc, B P, additional, Maingi, R, additional, Maqueda, R J, additional, Menard, J E, additional, Mueller, D, additional, Rosenberg, A, additional, Sabbagh, S A, additional, Stutman, D, additional, Taylor, G, additional, Johnson, D W, additional, Kaita, R, additional, Ono, M, additional, Paoletti, F, additional, Peebles, W, additional, Peng, Y-K M, additional, Roquemore, A L, additional, Skinner, C H, additional, Soukhanovskii, V A, additional, and Team, the NSTX Research, additional

Published
2002
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26. Characteristics of the FirstH-Mode Discharges in the National Spherical Torus Experiment

Author

Maingi, R., primary, Bell, M. G., additional, Bell, R. E., additional, Bush, C. E., additional, Fredrickson, E. D., additional, Gates, D. A., additional, Kaye, S. M., additional, Kugel, H. W., additional, LeBlanc, B. P., additional, Menard, J. E., additional, Mueller, D., additional, Sabbagh, S. A., additional, Stutman, D., additional, Taylor, G., additional, Johnson, D. W., additional, Kaita, R., additional, Maqueda, R. J., additional, Ono, M., additional, Paoletti, F., additional, Paul, S. F., additional, Peng, Y-K. M., additional, Roquemore, A. L., additional, Skinner, C. H., additional, Soukhanovskii, V. A., additional, and Synakowski, E. J., additional

Published
2002
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30. The role of the spherical tokamak in clarifying tokamak physics

Author

Morris, A W, primary, Akers, R J, additional, Connor, J W, additional, Counsell, G F, additional, Fonck, R J, additional, Gryaznevich, M P, additional, Gusev, V, additional, Hender, T C, additional, Kaye, S M, additional, Maddison, G P, additional, Majeski, R, additional, Martin, T J, additional, McClements, K G, additional, Medvedev, S, additional, Peng, Y-K M, additional, Roach, C M, additional, Robinson, D C, additional, Sharapov¶, S, additional, Sykes, A, additional, Valovic, M, additional, Walsh, M J, additional, and Wilson, H R, additional

Published
1999
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31. New Applications of ORNL Neutral Beam Injectors

Author

Tsai, C. C., primary, Barber, G. C., additional, Haines, J. R., additional, Milora, S. L., additional, Peng, Y-K. M., additional, Sparks, D. O., additional, Schechter, D. E., additional, Liniers, M., additional, and Nightingale, M. P. S., additional

Published
1998
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38. Tight aspect ratio tokamak experiments and prospects for the future

Author

Sykes, A., primary, Peng, Y.-K. M., additional, Connor, J. W., additional, Gryaznevich, M., additional, Hender, T. C., additional, Hugill, J., additional, Jenkins, I., additional, Martin, R., additional, Morris, A. W., additional, Ribeiro, C., additional, Robinson, D. C., additional, Walsh, M. J., additional, and Wilson, H. R., additional

Published
1995
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50. Remote handling and plasma conditions to enable fusion nuclear science R&D using a component testing facility

Author

Peng, Y. K. M., Burgess, T. W., Carroll, A. J., Neumeyer, C. L., Canik, J. M., Cole, M. J., William Dorland, Fogarty, P. J., Grisham, L., Hillis, D. L., Katoh, Y., Korsah, K., Kotschenreuther, M., Lahaye, R., Mahajan, S., Majeski, R., Nelson, B. E., Patton, B. D., Rasmussen, D. A., Sabbagh, S. A., Sontag, A. C., Stoller, R. E., Tsai, C. C., Valanju, P., Wagner, J. C., and Yoder, G. L.

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