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Electron temperature gradient driven turbulence : The 41st annual meeting of the division of plasma physics of the american physical society (2000)

Jenko, F. ; Dorland, W. ; Kotschenreuther, M. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Physics of Plasmas 7 (2000), S. 1904-1910

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ISSN: 1089-7674

Source: AIP Digital Archive

Topics: Physics

Notes: Collisionless electron-temperature-gradient-driven (ETG) turbulence in toroidal geometry is studied via nonlinear numerical simulations. To this aim, two massively parallel, fully gyrokinetic Vlasov codes are used, both including electromagnetic effects. Somewhat surprisingly, and unlike in the analogous case of ion-temperature-gradient-driven (ITG) turbulence, we find that the turbulent electron heat flux is significantly underpredicted by simple mixing length estimates in a certain parameter regime (s(circumflex)∼1, low α). This observation is directly linked to the presence of radially highly elongated vortices ("streamers") which lead to very effective cross-field transport. The simulations therefore indicate that ETG turbulence is likely to be relevant to magnetic confinement fusion experiments. © 2000 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.874014

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Diamagnetic stabilization of ideal ballooning modes in the edge pedestal (1999)

Rogers, B. N. ; Drake, J. F.

[S.l.] : American Institute of Physics (AIP)

Physics of Plasmas 6 (1999), S. 2797-2801

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ISSN: 1089-7674

Source: AIP Digital Archive

Topics: Physics

Notes: The stability of the tokamak edge pedestal to ballooning modes is addressed using three-dimensional simulations of the Braginskii equations and simple analytic models. The effects of ion diamagnetic drift and the finite radial localization of the pedestal pressure gradient are found to be strongly stabilizing when δ〈δR, where δ is the pedestal half-width and δR∼ρi2/3R1/3 in the center of the pedestal. In this limit, conventional ballooning modes within the pedestal region become stable, and a stability condition is obtained in the two fluid system α/αc〈(4/3)δR/δ (stable) which is much less stringent than that predicted by local magnetohydrodynamic (MHD) theory (α/αc〈1). Given α∼q2Rβ/δ, this condition implies a stability limit on the pedestal β: β〈βc, where βc=(4αc/3q2)δR/R. This limit is due the onset of an ideal pressure driven "surface" instability that depends only on the pressure drop across the pedestal. Near marginal conditions, this mode has a poloidal wavenumber kθ∼1/δR, a radial envelope ∼δR(〉δ), and real frequency ω∼cs/δRR. © 1999 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.873237

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Response to "Comment on ‘Collisionless m=1 reconnection in tokamaks' " [Phys. Plasmas 3, 2411 (1996)] (1997)

Rogers, B. N.

[S.l.] : American Institute of Physics (AIP)

Physics of Plasmas 4 (1997), S. 1175-1175

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ISSN: 1089-7674

Source: AIP Digital Archive

Topics: Physics

Notes: Our numerical simulation of collisionless m = 1 reconnection in tokamaks do not support the Wang and Bhattacharjee theory of explosive growth of plasma instabilities. We disagree with their assumptions link-ing the poloidal flow to the plasma pressure. (AIP) © 1997 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.872216

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