Abstract
We have studied the minority-carrier lifetime on intentionally indium-doped (211)B molecular beam epitaxially grown Hg1-xCdxTe epilayers down to 80K with x ≈ 23.0% ± 2.0%. Measured lifetimes were explained by an Auger-limited band-to-band recombination process in this material even in the extrinsic temperature region. Layers show excellent electron mobilities as high as ≈2 x 105 cm2v-1s-1 at low temperatures. When the layers are compensated with Hg vacancies, results show that the Schockley-Read recombination process becomes important in addition to the band-to-band processes. From the values of τn0 and τp0 of one sample, the obtained defect level is acceptor-like and is somewhat related to the Hg vacancies.
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