Title :
A four-point probe method with increased accuracy for the local determination of the thickness of thin, electrically conducting layers
Author_Institution :
Forschungsinst., Deutschen Bundespost beim Fernmeldetechnischen Zentralamt, Darmstadt, West Germany
Abstract :
The error analysis for an infinite thin conductive plate shows that a four-point probe resistivity-to-thickness ratio measurement method with circularly arranged contact tips based on two pairs of measured current and voltage values obtained by cyclical exchange of the connections yields extremely low measurement errors due to contact misalignment. Conventional four-point probe measurement methods are unsuitable if Schottky behavior occurs between the metallic contact and the sample. A novel four-point probe measurement method using an ohmic (alloyed) auxiliary contact at the edge of the sample for current feed-in is presented. Both methods were tested for thickness measurement on thin epitaxial InP and GaAs layers and compared with each other. The results showed very good agreement. The accuracy was about 3 percent.
Keywords :
III-V semiconductors; electric sensing devices; electrical conductivity measurement; gallium arsenide; indium compounds; semiconductor epitaxial layers; semiconductor thin films; thickness measurement; Schottky behavior; circularly arranged contact tips; four-point probe method; infinite thin conductive plate; ohmic auxiliary contact; resistivity-to-thickness ratio measurement; semiconductor thin film; thin epitaxial GaAs; thin epitaxial InP; Contacts; Current measurement; Measurement uncertainty; Probes; Semiconductor device measurement; Thickness measurement; Voltage measurement;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.1982.6312553
