Two-dimensional particle simulation of Langmuir probe sheaths with oblique magnetic field
- Max-Planck-Institut fuer Plasmaphysik, 85740 Garching (Germany)
Two-dimensional particle simulations of the sheath in front of a flat Langmuir probe mounted into a particle absorbing plate are performed to study the influence of a strong magnetic field (relation between Larmor radii and Debye length: [rho][sub [ital e]][le][lambda][sub D], [rho][sub [ital i]][much gt][lambda][sub D]) which is oriented obliquely to the probe surface. Ion-attracting probes are considered and the sheath is assumed to be collisionless. The full particle orbits in the homogeneous magnetic field and the self-consistent electric potential are calculated with a particle-in-cell (PIC) code with two spatial coordinates and three velocity components (2[ital d],3[ital v]). The main results are: In the sheath the ion trajectories are bent towards the normal to the probe surface so that the ion flow is focused to the edges of the probe. This leads to an enhancement of the ion current as compared to the current flowing in the flux tube subtended by the probe. As a consequence the current does not saturate at large (negative) probe voltage, because the thickness of the Debye sheath, and thus the effective probe size, grows with increasing probe voltage. This effect is particularly strong if the sheath thickness is about as large, or larger than, the projection of the probe size along the magnetic field lines. These results can help to explain the ion-current nonsaturation found in recent measurements with Langmuir probes in the boundary layer of magnetically confined plasmas.
- OSTI ID:
- 6685072
- Journal Information:
- Physics of Plasmas; (United States), Vol. 1:11; ISSN 1070-664X
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
PLASMA SHEATH
PLASMA DIAGNOSTICS
PLASMA SIMULATION
BOUNDARY LAYERS
DEBYE LENGTH
ELECTRIC POTENTIAL
LANGMUIR PROBE
LARMOR RADIUS
MAGNETIC FIELDS
TWO-DIMENSIONAL CALCULATIONS
DIMENSIONS
ELECTRIC PROBES
LAYERS
LENGTH
PROBES
SIMULATION
700350* - Plasma Production
Heating
Current Drive
& Interactions- (1992-)
700320 - Plasma Diagnostic Techniques & Instrumentation- (1992-)
700330 - Plasma Kinetics
Transport
& Impurities- (1992-)