The effect of temperature-induced variations in charge carrier mobility on a stationary electrohydrodynamic instability

W. J. Worraker; A. T. Richardson

doi:10.1017/S0022112079001762

Abstract

An externally applied d.c. electric field is known to produce instability in a plane layer of dielectric liquid heated from above. The stationary linear instability of a unipolar charge injection equilibrium for which carrier mobility depends linearly on temperature is investigated. It is found that the sign of the temperature gradient in relation to the emitting electrode determines whether or not such instability can occur, and that two types of instability can be distinguished: (i) a space charge modified Bénard mode; and (ii) a thermally modified space charge mode. It is shown that the critical voltage is highly dependent upon the absolute value of mobility and its variation across the layer.

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The effect of temperature-induced variations in charge carrier mobility on a stationary electrohydrodynamic instability

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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The effect of temperature-induced variations in charge carrier mobility on a stationary electrohydrodynamic instability

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