We review our recent efforts on developing
HgCdSe infrared materials on GaSb substrates via molecular beam epitaxy (MBE)
for fabricating next generation infrared detectors with features of lower
production cost and larger focal plane array format size. In order to achieve
high-quality HgCdSe epilayers, ZnTe buffer layers are grown before growing
HgCdSe, and the study of misfit strain in ZnTe buffer layers shows that the
thickness of ZnTe buffer layer needs to be below 300 nm in order to minimize
the generation of misfit dislocations. The cut-off wavelength/alloy composition
of HgCdSe materials can be varied in a wide range by varying the ratio of Se/Cd
beam equivalent pressure during the HgCdSe growth. Growth temperature presents
significant impact on the material quality of HgCdSe, and lower growth
temperature leads to higher material quality for HgCdSe. Typically, long-wave
infrared HgCdSe (x=0.18, cut-off wavelength of
at 80 K) presents an electron mobility as high as , a background
electron concentration as low as 1.6×1016 cm−3, and a minority carrier lifetime
as long as . These values of electron mobility and minority carrier lifetime
represent a significant improvement on previous studies of MBE-grown HgCdSe
reported in the open literatures, and are comparable to those of counterpart
HgCdTe materials grown on lattice-matched CdZnTe substrates. These results
indicate that HgCdSe grown at the University of Western Australia, especially
long-wave infrared can meet the basic material quality requirements for making
high performance infrared detectors although further effort is required to
control the background electron concentration to below 1015 cm−3. More
importantly, even higher quality HgCdSe materials on GaSb are expected by
further optimizing the growth conditions, using higher purity Se source
material, and implementing post-growth thermal annealing and defect/impurity
gettering/filtering. Our results demonstrate the great potential of HgCdSe
infrared materials grown on GaSb substrates for fabricating next generation
infrared detectors with features of lower cost and larger array format size.
Source:IOPscience
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