Low-Cost Lattice Matching Si Based Composite Substrates for HgCdTe

Abstract

A new class of low-cost composite substrate based on ternary alloy CdSe(x)Te(1 x)(211)/Si(211) has been developed using molecular beam epitaxy (MBE). Composition of the alloy can be tuned to exactly match the lattice of HgCdTe epilayer to minimize the generation of dislocations at the interface. The growth of CdSeTe was performed using a compound CdTe effusion source and an elemental Se effusion source. The alloy composition (x) of the CdSe(x)Te1 x ternary compound was controlled through the Se:CdTe flux ratios. Our results indicated that the crystalline quality of CdSeTe decreases as the alloy composition increases, possibly due to an alloy disordering effect. A similar trend was observed for the CdZnTe ternary alloy system. However, the alloy disordering effect in CdSeTe was found to be less severe than that in CdZnTe. We have carried out the growth of CdSeTe on Si at different temperatures. An optimized growth window was established for CdSeTe on Si(211) to achieve high crystalline quality CdSeTe/Si layers with 4% Se. The as-grown layers exhibited excellent surface morphology, low surface defect density (less than 500 cm 2), and low x-ray full width at half maximum (FWHM) values near 100 arcsec. Additionally, CdSeTe/Si layer exhibited excellent lateral uniformity.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 2013

Accession Number

ADA586243

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