PPPL-4840
Instability, Collapse and Oscillation of Sheaths Caused by Secondary Electron Emission
Authors: M.D. Campanell, A.V. Khrabrov and I.D. Kaganovich
Abstract:
The Debye sheath is shown to be unstable under general conditions. For surface materials with
sufficient secondary electron emission (SEE) yields, the surface's current-voltage characteristic has
an unstable branch when the bulk plasma temperature (Te ) exceeds a critical value, or when there
are fast electron populations present. The plasma-surface interaction becomes dynamic where the
sheath may undergo spontaneous transitions or oscillations. Using particle-in-cell simulations, we
analyze sheath instabilities occurring in a high Te plasma slab bounded by walls with SEE. As the
plasma evolves, whenever the sheath enters an unstable state, its amplitude rapidly collapses,
allowing a large flux of previously trapped electrons to hit the wall. These hot electrons induce
more than one secondary on average, causing a net loss of electrons from the wall. The sheath
collapse quenches when the surface charge becomes positive because the attractive field inhibits
further electrons from escaping. Sheath instabilities influence the current balance, energy loss,
cross-B-field transport and even the bulk plasma properties. Implications for discharges including
Hall thrusters are discussed. More generally, the results show that common theories that treat
emission as a fixed (time-independent) "coefficient" do not capture the full extent of SEE effects.
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Submitted to: Physics of Plasmas (December 2012)
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Download PPPL-4840 (pdf 1.17 MB 13 pp)
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