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Scapulla, M. A.
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article
Effect of oxygen on the electronic band structure of II-O-VI alloys
Abstract
We have studied the effects of composition and hydrostatic pressure on the direct optical transitions at the Γ point of the Brillouin zone in MBE-grown ZnO<sub>x</sub>Se<sub>1-x</sub> and ion-implantation-synthesized Zn<sub>1-y</sub>Mn<sub>y</sub>O<sub>x</sub>Te<sub>1-x</sub> alloys. We observe a large O-induced band-gap reduction and a change in the pressure dependence of the fundamental band gap of the II-O-VI alloys. The effects are similar to those previously observed and extensively studied in highly mismatched III-N-V alloys. Our results are well explained in terms of the band anticrossing model that considers an anticrossing interaction between the highly localized oxygen states and the extended states of the conduction band of II-VI compounds. The O-induced modification of the conduction band structure offers an interesting possibility of using small amounts of O to engineer the optoelectronic properties of group II-O-VI alloys.