Abstract
A model has been developed to simulate the interaction between dense (order of n/sub e/=10/sup 16/ cm/sup -3/) plasmas and the naturally occuring microprotrusions on cathode surfaces. Heating and cooling of an ellipsoidal two-dimensional (2-D) model microprotrusion is simulated in order to achieve the time-dependent behavior in terms of electron emission and erosion of the microprotrusion. Thermo-field emission is taken into account for the investigation of the electron emissivity of the tip. The 2-D model shows distinct differences to a one-dimensional (1-D) model in the scope of of emissive and erosive behavior. In particular, it is found that due to ion heating, a 2-D protrusion can easily be ignited within ranges of plasma parameters and cathode voltage drop where 1-D models fail to explain the experimentally observed ignition of cathode spots on metal surfaces.
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