Some Aspects of Photoconductivity in Cadmium Selenide Crystals

Abstract

Vacuum annealing of insulating and insensitive cadmium selenide crystals grown from the vapor phase increases their photosensitivity to a value at least as high as that of crystals sensitized by impurity incorporation. Such annealing-sensitized crystals have one hundred to one thousand times greater sensitivity than impurity-sensitized crystals at low light intensities and/or high operating temperatures. A new infrared quenching band with maximum at 1.0 ev is found at elevated temperatures, correlated with the residual sensitivity of the annealing-sensitized crystals. The same sensitizing centers are involved in the photoconductivity of annealing-sensitized and impurity-sensitized cadmium selenide crystals, regardless of whether the excitation is absorbed only at the surface or throughout the volume. In annealing-sensitized crystals, the effective volume for photocurrent flow for volume excitation is one hundred times larger than that for surface excitation; this result indicates a fairly homogeneous distribution of sensitizing centers through the volume of the crystal. A tentative description of conductivity and photosensitivity characteristics is given in terms of the various types of vacancies likely to be participating.