Abstract
The use of a light-spot scanner presents possibilities of rapid and surveillant measurements of carrier lifetime and resistivity variation in semiconductor crystals. In industrial applications the necessity of a rectifying contact presents problems for further processing of the crystal. Previously, this contact was constructed either by making a p-n junction or a Schottky junction of the wafer under investigation. It is shown here that by using an electrolyte in contact with a plain silicon wafer, one obtains equally accurate measurements of the resistivity variation without contaminating the wafer.
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