Igor S. Terzin scite author profile

We evaluated the effect of high-temperature treatment of Cd 0.9 Zn 0.1 Te:In single crystals using Hall-effect measurements, medium-and high-temperature annealing under various deviations from stoichiometry, and infra-red (IR) transmission microscopy Annealing at ~730 K sharply increased the electrical conductivity (by ~1-2 orders-of-magnitude). Plots of the temperature-and cadmium-pressure dependences of the electrical conductivity, carrier concentration, and mobility were obtained. Treating previously annealed Cd-samples under a Te overpressure at 1070 K allowed us to restore their resistance to its initial high values. The main difference in comparing this material with CdTe was its lowered electron density. We explained our results within the framework of Kröger's theory of quasi-chemical reactions between point defects in solids.

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Igor S. Terzin

Room temperature Fe²⁺:Cd_1-xMn_xTe laser generating at 54–6 μm

Comparison of novel Fe2+:Zn1-xMnxTe (x ≈ 0.3) laser crystal operating near 5 μm at 78 K with other known Mn co-doped A II-BVI solid solutions

Spectral and lasing characteristics of Fe:Cd1-xMnxTe (x = 01 – 076) crystals in the temperature range 77 to 300 K

High-temperature treatment of In-doped CZT crystals grown by the high-pressure Bridgman method

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Igor S. Terzin

Room temperature Fe2+:Cd1-xMnxTe laser generating at 54–6 μm

Comparison of novel Fe2+:Zn1-xMnxTe (x ≈ 0.3) laser crystal operating near 5 μm at 78 K with other known Mn co-doped A II-BVI solid solutions

Spectral and lasing characteristics of Fe:Cd1-xMnxTe (x = 01 – 076) crystals in the temperature range 77 to 300 K

High-temperature treatment of In-doped CZT crystals grown by the high-pressure Bridgman method

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Room temperature Fe²⁺:Cd_1-xMn_xTe laser generating at 54–6 μm