Author:
BYCHKOV YU.I.,YAMPOLSKAYA S.A.,YASTREMSKY A.G.
Abstract
We present two-dimensional simulation results of the formation
and evolution of a diffuse plasma channel in the XeCl pumping
discharge. Channel formation was initiated by metallic convexity
at the cathode surface with a characteristic dimension of ∼0.1
cm. Two pumping regimes were considered. Initial voltage in
the second regime was increased 1.6 times and impedance was
decreased 2 times in contrast with the first regime. Evolutions
and spatial distributions are presented for electron density,
electric field, and frequencies of the main process. In the
first regime, the diffuse plasma channel forms. The main processes
causing development of the plasma channel are inhomogeneous
distribution of the electric field, increase of the stepwise
ionization frequency at ne
∼ 1015 cm−3, and depletion of HCl.
Increasing of the initial voltage and decreasing of the impedance
in the second regime results in a quick rise of the discharge current
and electron density in the discharge gap, and uniform discharge
takes place during the current pulse.
Subject
Electrical and Electronic Engineering,Condensed Matter Physics,Atomic and Molecular Physics, and Optics
Cited by
9 articles.
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