David Coulette scite author profile

David Coulette

3Publications

104Citation Statements Received

79Citation Statements Given

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Unit of Mathematics, Pure and Applied, University of Strasbourg, Institut de Physique et Chimie des Matériaux de Strasbourg

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Kinetic simulations of the Chodura and Debye sheaths for magnetic fields with grazing incidence

Coulette

Manfredi

2016

Plasma Phys. Control. Fusion

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When an unmagnetized plasma comes in contact with a material surface, the difference in mobility between the electrons and the ions creates a non-neutral layer known as the Debye sheath (DS).However, in magnetic fusion devices, the open magnetic field lines intersect the structural elements of the device with near grazing incidence angles. The magnetic field tends to align the particle flow along its own field lines, thus counteracting the mechanism that leads to the formation of the DS.Recent work using a fluid model [P. Stangeby, Nucl. Fusion 52, 083012 (2012)] showed that the DS disappears when the incidence angle is smaller than a critical value (around 5 • for ITER-like parameters). Here, we study this transition by means of numerical simulations of a kinetic model both in the collisionless and weakly collisional regimes. We show that the main features observed in the fluid model are preserved: for grazing incidence, the space charge density near the wall is reduced or suppressed, the ion flow velocity is subsonic, and the electric field and plasma density profiles are spread out over several ion Larmor radii instead of a few Debye lengths as in the unmagnetized case. As there is no singularity at the DS entrance in the kinetic model, this phenomenon depends smoothly on the magnetic field incidence angle and no particular critical angle arises. The simulation results and the predictions of the fluid model are in good agreement, although some discrepancies subsist, mainly due to the assumptions of isothermal closure and diagonality of the pressure tensor in the fluid model. * Electronic address: coulette@unistra.fr † Electronic address: manfredi@unistra.fr 1 arXiv:1509.04479v2 [physics.plasm-ph]

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Numerical comparisons of gyrokinetic multi-water-bag models

Coulette¹,

Besse²

2013

Journal of Computational Physics

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An Eulerian Vlasov code for plasma-wall interactions

Coulette¹,

Manfredi²

2014

J. Phys.: Conf. Ser.

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David Coulette

Kinetic simulations of the Chodura and Debye sheaths for magnetic fields with grazing incidence

Numerical comparisons of gyrokinetic multi-water-bag models

An Eulerian Vlasov code for plasma-wall interactions

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