Your search keyword '"Keith H. Burrell"' showing total 6 results

1. Quasistationary Plasma Predator-Prey System of Coupled Turbulence, Drive, and Sheared E×B Flow During High Performance DIII-D Tokamak Discharges

Author

Terry Rhodes, Kshitish Barada, Lei Zeng, W. A. Peebles, L. Bardoczi, Christopher Muscatello, Xi Chen, and Keith H. Burrell

Subjects

Physics, Tokamak, DIII-D, Turbulence, General Physics and Astronomy, Magnetic confinement fusion, Plasma, Mechanics, 01 natural sciences, 010305 fluids & plasmas, law.invention, Magnetic field, Shear (sheet metal), Physics::Plasma Physics, law, 0103 physical sciences, Torque, 010306 general physics

Abstract

A new, long-lived limit cycle oscillation (LCO) regime has been observed in the edge of near zero torque high performance DIII-D tokamak plasma discharges. These LCOs are localized and composed of density turbulence, gradient drives, and E×B velocity shear damping (E and B are the local radial electric and total magnetic fields). Density turbulence sequentially acts as a predator (via turbulence transport) of profile gradients and a prey (via shear suppression) to the E×B velocity shear. Reported here for the first time is a unique spatiotemporal variation of the local E×B velocity, which is found to be essential for the existence of this system. The LCO system is quasistationary, existing from 3 to 12 plasma energy confinement times (∼30-900 LCO cycles) limited by hardware constraints. This plasma system appears to contribute strongly to the edge transport in these high performance and transient-free plasmas, as evident from oscillations in transport relevant edge parameters at LCO time scale.

Published

2018

2. Rotation characteristics of main ions and impurity ions inH-mode tokamak plasma

Author

R. P. Seraydarian, Y B Kim, Keith H. Burrell, J. Kim, R. J. Groebner, H.E. St. John, M. R. Wade, and P. Gohil

Subjects

Physics, Tokamak, General Physics and Astronomy, chemistry.chemical_element, Plasma, Electron, Charged particle, law.invention, Ion, chemistry, Physics::Plasma Physics, law, Electric field, Diamagnetism, Atomic physics, Helium

Abstract

Poloidal and toroidal rotation of the main ions (${\mathrm{He}}^{2+}$) and the impurity ions (${\mathrm{C}}^{6+}$ and ${\mathrm{B}}^{5+}$) in H-mode helium plasmas have been measured via charge exchange recombination spectroscopy in the DIII-D tokamak. It was discovered that the main ion poloidal rotation is in the ion diamagnetic drift direction while the impurity ion rotation is in the electron diamagnetic drift direction, in qualitative agreement with the neoclassical theory. The deduced radial electric field in the edge is of the same negative-well shape regardless of which ion species is used, validating the fundamental nature of the electric field in L-H transition phenomenology.

Published

1994

3. Explanation of the Expulsion of Impurities from Tokamak Plasmas by Neutral-Beam Injection

Author

Keith H. Burrell, Seung Kai Wong, and Tihiro Ohkawa

Subjects

Tokamak, Materials science, Hydrogen, Plasma composition, General Physics and Astronomy, chemistry.chemical_element, Plasma, Fusion power, Energy technology, Neutral beam injection, law.invention, chemistry, law, Impurity, Atomic physics

Published

1981

4. Study of Giant Edge-Localized Modes in DIII-D and Comparison with Ballooning Theory

Author

L. L. Lao, R. D. Stambaugh, R. T. Snider, R. E. Stockdale, C. L. Hsieh, M. Ali Mahdavi, Keith H. Burrell, Ming-Sheng Chu, N. Ohyabu, J.C. DeBoo, and P. Gohil

Subjects

Physics, DIII-D, Physics::Plasma Physics, General Physics and Astronomy, Atmospheric-pressure plasma, Plasma, Atomic physics, Curvature, Instability, Pressure gradient, Ballooning, Marginal stability

Abstract

In DIII-D H-mode plasmas, large amplitude modulation of steep edge electron pressure gradients are observed during the occurrences of giant edge-localized modes (ELM's). For a considerable range of plasma currents (1 to 2 MA), the experimental pressure gradient before a giant ELM is close to the theoretically predicted marginal stability limit for the first regime of the ideal ballooning mode. These results, together with observations showing that ELM's originate in the region of bad curvature, strongly suggest that ELM's are triggered by ballooning mode instabilities.

Published

1988

5. Time-Dependent Measurements of Metal Impurity Densities in a Tokamak Discharge by Use of Laser-Induced Fluorescence

Author

Clifford H. Miller and Keith H. Burrell

Subjects

Materials science, Tokamak, Impurity, law, Sputtering, Limiter, General Physics and Astronomy, Plasma diagnostics, Plasma, Atomic physics, Laser-induced fluorescence, Ohmic contact, law.invention

Abstract

Measured FeI densities in the edge region of the impurity study experiment (ISX-B) tokamak in ohmic and neutral-beam-heated discharges are consistent with densities calculated, if one assumes that sputtering of the stainless steel walls by charge-exchange neutrals is the dominant production mechanism. FeI and TiI densities observed during plasma shift experiments indicate that the limiters play only a minor role in impurity production in D/sub 2/ discharges. This also suggests that most metals are sputtered from the walls.

Published

1981

6. Experimental Observation of the Impurity-Flow-Reversal Effect in a Tokamak Plasma

Author

R.C. Isler, P.H. Edmonds, G. H. Neilson, Keith H. Burrell, Seung Kai Wong, E. S. Ensberg, R.J. Colchin, Masakatsu Murakami, J.C. DeBoo, C.E. Bush, R. Prater, K. W. Hill, and T. C. Jernigan

Subjects

Materials science, Tokamak, Flow (mathematics), law, Impurity, General Physics and Astronomy, Plasma, Atomic physics, Reversal effect, law.invention

Published

1978