Hg1−xCdxTe epitaxial layers grown by low mercury partial pressure metalorganic chemical vapor deposition and extended defect characterization.
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説明
There are two growth methods in Hg1−xCdxTe metalorganic chemical vapor deposition (MOCVD) growth, namely direct alloy growth (DAG) and the interdiffused multilayer process (IMP). HgCdTe layers have been grown by both methods onto CdZnTe (111)B substrates and their structural and electrical properties were investigated. The composition fluctuated significantly along the growth direction for DAG. On the other hand, there were many misfit dislocations in the IMP layers, presumably generated by the lattice mismatch between the HgTe and CdTe layers. Here we have investigated DAG HgCdTe growth under low mercury partial pressure in order to improve depth compositional uniformity, misfit dislocation density and the lamella twin density. This low mercury partial pressure growth gave mercury transport limited growth for HgTe as in the conventional growth of III–V compounds by MOCVD. The Hg0.8Cd0.2Te layers grown by the new method (p-type 3.4x1015 cm-3 for carrier concentration, 520 cm2V·s for mobility in as-grown samples) were found to be improved with respect to depth compositional uniformity and dislocation density.
収録刊行物
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- Journal of Crystal Growth
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Journal of Crystal Growth 117 37-43, 1992-02-01
Elsevier BV