Numerical simulations are used to investigate the collection of electrons by a long conducting cylinder in a flowing plasma. The plasma flow simulates the relative motion between a spacecraft and the plasma. The sheath structures and the levels of electron current collections for the cases with and without an ambient magnetic field are examined. It is found that for the flow perpendicular to the magnetic field, the current is considerably enhanced depending on the relative drift velocity. In the case of a nonzero magnetic field perpendicular to the cylinder axis, the potential structure is a 2D double layer with dimensions L-perpendicular much less than L-parallel. L-perpendicular is found to be the current limiting radius given by the Parker-Murphy model (1967). For the flow along the ambient magnetic field, the electron current is found to be smaller than that for the flow perpendicular to this field. This is explained in terms of the potential structures.
Current collection through the transport of electrons across magnetic field lines
Advances in Space Research ; 12 , 12 D
1992-12-01
Sonstige
Keine Angabe
Englisch
Magnetic Self-Field Effects on Bare-Tether Current Collection
British Library Conference Proceedings | 2001
|Transport across complex magnetic environment
Online Contents | 2005
|Transport across complex magnetic environment
Elsevier | 2005
|Transport across complex magnetic environment
British Library Conference Proceedings | 2005
|