S.T. de Zwart, G.G.P. van Gorkom, B.H.W. Hendriks, N. Lambert, P.H.F. Trompenaars
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The basic mechanism of electron transport in vacuum through insulating structures is discussed. The transport is based on a self-regulating secondary electron emission process. A general description of the transport process is presented. Three methods to model steady-state transport are briefly reviewed. The features are discussed in the light of application in displays. Also, non-steady-state effects and the role of space charge are addressed.
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