Spatial evolution of an ion beam created by a geometrically expanding low-pressure argon plasma

Date

2008-06-06

Authors

Corr, C. S.
Boswell, R. W.
Charles, C.
Zanger, J.

Journal Title

Journal ISSN

Volume Title

Publisher

American Institute of Physics (AIP)

Abstract

The spatial distribution of an ion beam—created at the interface of a small diameter plasma source and much larger diameter diffusion chamber—is studied in a low-pressure inductively coupled plasma using a retarding field energy analyzer. It is found that the ion beam density decays axially and radially in the diffusion chamber following the expansion of the plasma from the source region. The radial distribution of the ion beam indicates that the acceleration region has a convex shape and is located just outside the source exit, giving rise to a hemispherical plasma expansion into the diffusion chamber.

Description

Keywords

Keywords: Argon; Beam plasma interactions; Charged particles; Diffusion; Electrons; Inductively coupled plasma; Inert gases; Ion beams; Ion bombardment; Ions; Photoresists; Plasmas; Pressure; Semiconducting cadmium telluride; Semiconductor doping; Size distribution

Citation

Source

Applied Physics Letters

Type

Journal article

Book Title

Entity type

Access Statement

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