Transport of ion beam in an annular magnetically expanding helicon double layer thruster
Loading...
Date
Authors
Zhang, Yunchao
Charles, Christine
Boswell, Rod
Journal Title
Journal ISSN
Volume Title
Publisher
American Institute of Physics (AIP)
Abstract
An ion beam generated by an annular double layer has been measured in a helicon thruster, which
sustains a magnetised low-pressure (5.0 104 Torr) argon plasma at a constant radio-frequency
(13.56 MHz) power of 300 W. After the ion beam exits the annular structure, it merges into a solid
centrally peaked structure in the diffusion chamber. As the annular ion beam moves towards the
inner region in the diffusion chamber, a reversed-cone plasma wake (with a half opening angle of
about 30 ) is formed. This process is verified by measuring both the radial and axial distributions
of the beam potential and beam current. The beam potential changes from a two-peak radial profile
(maximum value 30 V, minimum value 22.5 V) to a flat ( 28 V) along the axial direction;
similarly, the beam current changes from a two-peak to one-peak radial profile and the maximum
value decreases by half. The inward cross-magnetic-field motion of the beam ions is caused by a
divergent electric field in the source. Cross-field diffusion of electrons is also observed in the inner
plume and is determined as being of non-ambipolar origin.
Description
Citation
Collections
Source
Physics of Plasmas
Type
Book Title
Entity type
Access Statement
License Rights
Restricted until
Downloads
File
Description
Published Version