Longitudinal permittivity of a tokamak plasma with elliptic and circular magnetic surfaces

Grishanov, N. I.; Azevedo, C. A. de; Assis, A. S. de

doi:10.1063/1.872757

Cited by 9 publications

(17 citation statements)

References 15 publications

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“…It is assumed that the toroidal field is monotonically decreasing with the major radius and that B(s, θ) has only one maximum in θ for a given value of s. This allows the analysis of most plasma shapes including elliptic plasmas with high triangularity, but eliminates "bean-shaped" plasmas or strong elliptic plasmas with d-trapped particles [51]. No orbits -For a given particle energy the different classes of orbits can be traced in the (P φ , µ)-plane.…”

Section: Ii1 Particle Orbits and Orbit Topologymentioning

confidence: 99%

CASTOR-K: Stability Analysis of Alfvén Eigenmodes in the Presence of Energetic Ions in Tokamaks

Borba

Kerner²

1999

Journal of Computational Physics

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Section: Ii1 Particle Orbits and Orbit Topologymentioning

confidence: 99%

CASTOR-K: Stability Analysis of Alfvén Eigenmodes in the Presence of Energetic Ions in Tokamaks

Borba

Kerner²

1999

Journal of Computational Physics

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“…However, analyzing the dielectric properties of a magnetospheric plasma with strongly deformed magnetic field lines, we should take into account the possible appearance of the new groups of the trapped particles, similarly to the tokamak plasmas with elliptic magnetic surfaces. 17 These new groups of the trapped particles need an additional description.…”

Section: Drift-kinetic Equationmentioning

confidence: 99%

“…It should be noted that also we have the same dependence for a magnetospheric plasma with circular magnetic field lines ͑evaluated in Sec. IV͒ and for other axisymmetric magnetized plasmas with the minimum of an equilibrium magnetic field, such as the tokamak 17 ͑with both the elliptic and circular magnetic sur-faces͒ and the straight open trap. 9…”

Section: A Fourier Series Over the Geomagnetic Latitudementioning

confidence: 99%

Longitudinal permittivity of magnetospheric plasmas with dipole and circular magnetic field lines

1998

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Electron kinetic effects in standing shear Alfvén waves in the dipolar magnetosphereLongitudinal permittivity elements of an axisymmetric magnetosphere are derived by solving the drift-kinetic equation for the trapped particles, in a two-dimensional plasma model with dipole and circular magnetic field lines. The drift-kinetic equation is solved for waves in the frequency range much larger than the drift frequencies. It is shown that the collisionless dissipation of such waves by the bounce-resonant interaction with the trapped particles differs substantially from one in a straight magnetic field. The estimations of the electron Landau damping for kinetic Alfvén waves in magnetospheric plasmas are presented. Imaginary part of the longitudinal permittivity is analyzed numerically in the wide range of wave frequencies and plasma parameters.

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“…In spherical tokamaks, however, the poloidal magnetic field strength can exceed that of the toroidal field and the radial extent of the drift orbit can be comparable to the Larmor orbit. In conjunction with a relatively small major radius relative to the minor radius, this leads to modification of orbit topologies [2,8,9], particle drifts [10], behavior of Alfvén-type instabilities [11,12], and neoclassical transport [13,14]. For example, the gyroradius of 80 keV D co-injected NB heating ions in NSTX can be ~ 0.3 m at the outboard midplane of the plasma.…”

Section: Introductionmentioning

confidence: 99%

MHD-induced Energetic Ion Loss during H-mode Discharges in the National Spherical Torus Experiment (NSTX)

Medley¹,

Gorelenkov²,

André³

et al. 2004

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MHD-induced energetic ion loss in neutral beam heated H-mode discharges in NSTX is discussed. A rich variety of energetic ion behavior resulting from magnetohydrodynamic (MHD) activity is observed in NSTX using a horizontally scanning neutral particle analyzer whose sightline views across the three co-injected neutral beams. Reconnection events, sawteeth and bounce fishbones are observed to cause prompt loss (or redistribution) of energetic ions (E ~ 10 -100 keV) on a time scale of ≤ 1 ms and, consequently, a precipitous drop in the neutron yield. On the other hand, onset of low-n MHD modes leads to a much slower decay of the energetic ions and neutron yield. MHD-induced ion loss during H-mode operation in NSTX exhibits yet another phenomenon. After H-mode onset, the NPA spectrum usually exhibits a significant loss of energetic ions mainly for E > E b /2 where E b is the beam injection energy, although this loss occasionally extends to lower energy. The magnitude of the energetic ion loss diminishes with increasing tangency radius of the NPA sightline, increasing toroidal field and increasing NB injection energy. Modeling suggests that MHD-induced ion loss is enhanced during H-mode operation due to an evolution of the q and beam deposition profiles that feeds both passing and trapped ions into the region of the plasma affected by the low-n MHD activity. Analysis of the particle interaction with a model magnetic perturbation supports the energy selectivity of the observed MHD-induced loss. Transport analysis using a fast ion diffusion model to emulate MHD-induced energetic ion loss shows significant modifications of the heating produced by the neutral beam which changes the inferred power balance, thermal External Distribution

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Longitudinal permittivity of a tokamak plasma with elliptic and circular magnetic surfaces

Cited by 9 publications

References 15 publications

CASTOR-K: Stability Analysis of Alfvén Eigenmodes in the Presence of Energetic Ions in Tokamaks

CASTOR-K: Stability Analysis of Alfvén Eigenmodes in the Presence of Energetic Ions in Tokamaks

Longitudinal permittivity of magnetospheric plasmas with dipole and circular magnetic field lines

MHD-induced Energetic Ion Loss during H-mode Discharges in the National Spherical Torus Experiment (NSTX)

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