Tekhnologiya i Konstruirovanie v Elektronnoi Apparature (Aug 2014)

Features of transformation of impurity-defect complexes in СdTe:Сl under the influence of microwave radiation

  • Budzulyak S. I.,
  • Korbutyak D. V.,
  • Lots'ko A. P.,
  • Vakhnyak N. D.,
  • Kalitchuk S. M.,
  • Demchina L. A.,
  • Konakova R. V.,
  • Shinkarenko V. V.,
  • Mel'nichuk A. V.

DOI
https://doi.org/10.15222/TKEA2014.2.45
Journal volume & issue
no. 4
pp. 45 – 49

Abstract

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High-resistance cadmium telluride single crystals are promising material for production of ionizing radiation detectors. To increase crystal resistance, they are doped with chlorine. The detector quality depends on uniformity of chlorine impurity distribution over crystal. It is known that low-dose microwave irradiation can homogenize impurity distribution in a specimen. In the present work, we made an attempt to improve the detector material quality by using such post-technological treatment, as well as to study state variation for impurity-defect complexes. To this end, the effect of microwave irradiation on transformation of impurity-defect complexes in CdTe:Cl single crystals was investigated using low-temperature photoluminescence. It is shown that activation of ClTe donor centers by microwave irradiation for 10 s and presence of VCd acceptor centers in the specimens under investigation effectively facilitate formation of (VNd–ClTe) defect centers at which excitons are bound. Detailed investigations of the band form for donor-acceptor pairs (DAPs) in CdTe:Cl single crystals made it possible to determine the Huang—Rhys factor (that characterizes electron-phonon interaction in CdTe:Cl DAPs) as a function of microwave treatment duration. It is shown for single crystals with NCl = 5·1017 cm–3 and 5·1019 cm–3 that the Huang—Rhys factor grows with microwave irradiation dose. This is related to both homogenization of donor and acceptor centers distribution and increase of donor—acceptor spacing. It is shown that microwave irradiation of CdTe:Cl single crystals results in concentration reduction for separate cadmium vacancies VCd because of formation of (VNd—ClTe) defect centers at which excitons are bound.

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