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The recent theory of averaged ponderomotive action of microwave fields in solids is expanded to describe quasistationary ionic currents driven by that action. Several limiting cases are explored in detail, and in all cases the effect is shown to depend upon the interfacial properties of the ionic crystal. Experimental results on the dynamics of the microwave-induced currents in AgCl and NaCl are presented. Agreement between experiment and theory provides further and stronger evidence for the general validity of the theoretical model.
Rybakov et al. (Sat,) studied this question.