2005
DOI: 10.1088/0029-5515/45/4/003
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Gyrokinetic global electrostatic ion-temperature-gradient modes in finite β equilibria of Wendelstein 7-X

Abstract: The standard scenario for the Wendelstein 7-X (W7-X) stellarator supposes equilibria with average β up to 4.3%. Here, the gyrokinetic description for full-radius ion-temperature-gradient (ITG) driven instabilities in three-dimensional configurations is used to investigate the linear stability and global structure of electrostatic ITG modes for the finite-β W7-X configurations. A massively-parallel initial-value particle-in-cell code has been modified to include the influence of a finite β on ITG modes due to e… Show more

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Cited by 21 publications
(27 citation statements)
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“…As advanced in Section 1, in a stellarator the terms proportional to E r do not cancel out on the right side of (25) in general. It can be checked that (25) reduces to the expression for the radial impurity flux given in [17] when ϕ 1 ≡ 0, and that in that case the right side of (25) does not depend on E r . This can be easily seen by noting that, for ϕ 1 ≡ 0, we have U 1 = u and U 2 ≡ 0, and recalling that the function s appearing in [17] is negligible compared to u when 1.…”
Section: Derivation Of the Expression For The Neoclassical Radial Impmentioning
confidence: 99%
See 1 more Smart Citation
“…As advanced in Section 1, in a stellarator the terms proportional to E r do not cancel out on the right side of (25) in general. It can be checked that (25) reduces to the expression for the radial impurity flux given in [17] when ϕ 1 ≡ 0, and that in that case the right side of (25) does not depend on E r . This can be easily seen by noting that, for ϕ 1 ≡ 0, we have U 1 = u and U 2 ≡ 0, and recalling that the function s appearing in [17] is negligible compared to u when 1.…”
Section: Derivation Of the Expression For The Neoclassical Radial Impmentioning
confidence: 99%
“…classical transport Figure 1. Neoclassical impurity flux given by (25) as a function of E r for the plasma described in the text and for η = 0. We show pairs of curves, without ϕ 1 (squares) and with ϕ 1 (circles), for three charge states of tungsten, Z z = 24, Z z = 34 and Z z = 44.…”
Section: Derivation Of the Expression For The Neoclassical Radial Impmentioning
confidence: 99%
“…The calculations of the radial fluxes for the impurities and Φ 1 has been carried out using the Monte Carlo f 1 particle in cell (PIC) code EUTERPE [10]. The current version in the gyro-kinetic modality is electro-magnetic, non-linear and considers the full surface and radial domain.…”
Section: The Code Euterpe and The Calculation Of φmentioning
confidence: 99%
“…The Fusion Theory unit from CIEMAT collaborates with the IPP and the Barcelona Supercomputing Center (BSC) for the development and exploitation of this code. The code solves the Vlasov equation in connection with the equation of motion for the particles and the quasineutrality equation on a real space grid [1,2,3].The code provided good results both in linear and nonlinear simulations of Ion Temperature Gradient (ITG) instabilities carried out in screw-pinch geometry [4]. In those simulations, especially for the nonlinear ones, it became clear that the amount of computational resources that a global threedimensional PIC code requires for typical simulations is huge, and it is of crucial importance that it can run efficiently on multi-processor architectures.…”
mentioning
confidence: 99%
“…The Fusion Theory unit from CIEMAT collaborates with the IPP and the Barcelona Supercomputing Center (BSC) for the development and exploitation of this code. The code solves the Vlasov equation in connection with the equation of motion for the particles and the quasineutrality equation on a real space grid [1,2,3].…”
mentioning
confidence: 99%