2000
DOI: 10.1134/1.1309470
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Plasma equilibrium in axisymmetric open divertor configurations

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Cited by 7 publications
(9 citation statements)
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“…This is to make a divertor magnetic field inside the GAMMA10 where the case of central cell divertor design was carried out by taking into account the plasma equilibrium. 19 Historically the equilibrium calculation has been carried out in various divertor mirror cells for isotropic pressure plasma, 20 for anisotropic pressure plasma 19,21 and for kinetic KruskalOberman stability theory with anisotropic pressure. 22 The theoretical study of flute mode stability by a magnetic divertor was done first by Lane et al 23 The subsequently the theory was extended by Pastukhov and Sokolov 24 by taking into account the nonparaxial magnetic filed line curvature and then was extended further more by Sasagawa et al 25 by including the anisotropic ion temperature effects.…”
Section: Introductionmentioning
confidence: 99%
“…This is to make a divertor magnetic field inside the GAMMA10 where the case of central cell divertor design was carried out by taking into account the plasma equilibrium. 19 Historically the equilibrium calculation has been carried out in various divertor mirror cells for isotropic pressure plasma, 20 for anisotropic pressure plasma 19,21 and for kinetic KruskalOberman stability theory with anisotropic pressure. 22 The theoretical study of flute mode stability by a magnetic divertor was done first by Lane et al 23 The subsequently the theory was extended by Pastukhov and Sokolov 24 by taking into account the nonparaxial magnetic filed line curvature and then was extended further more by Sasagawa et al 25 by including the anisotropic ion temperature effects.…”
Section: Introductionmentioning
confidence: 99%
“…The results in Ref. [105] suggest that longitudinal currents at the ends of a corrugated solenoid with magnetic mirrors may also be absent.…”
Section: Prospects Of the Ambipolar Fusion Reactormentioning
confidence: 99%
“…When the plasma pressure at the plasma periphery gradually decreases with increasing radius, the stabilizing effect of the conducting walls weakens. Basing their reasoning on the results in Refs [79,105] for a certain class of radial pressure profiles in a solenoid without magnetic mirrors, Arsenin and Kuyanov [105] derived formulas for the dependence of the threshold value of b for the stability of the m 1 mode on the thickness of the peripheral transition layer for different values of r w ar p . As the peripheral pressure profile changes from a distinct boundary to a smooth transition with the thickness of the order of the plasma radius at r w 1X3r p , the threshold value of b increases from 0.6 to approximately 0.82.…”
Section: Prospects Of the Ambipolar Fusion Reactormentioning
confidence: 99%
“…The design of a magnetic divertor is a recent issue in the attempt to improve the radial confinement of the GAMMA10 tandem mirror 14 with the developments of the theoretical study. 15,16 Experiments on the magnetic divertor were carried out at the TARA tandem mirror 17 in which complete divertor stabilization of the central cell plasma was not achieved in these experiments because the plasma pressure was localized near the axis, but some indirect evidence of stabilizing influence was observed. In contrast, the HIEI tandem mirror 18 has been able to stabilize the interchange modes with wider plasma density radial profiles.…”
Section: Introductionmentioning
confidence: 99%