Abstract
We report growth of single-crystal Cd0.9Zn0.1Te ingots while using the pressure-controlled Bridgman method. The Cd pressure was controlled during growth to suppress its evaporation from the melt and reduce the size of Te inclusions in the as-grown crystals. The accelerated crucible rotation technique (ACRT) was used to suppress constitutional supercooling. The fast accelerating and slow decelerating rotation speeds were optimized. Two-inch Cd0.9Zn0.1Te single-crystal ingots without grain boundaries or twins were grown reproducibly. Glow discharge mass spectrometry results indicate the effective segregation coefficients of Zn and In dopants are 1.24 and 0.18, respectively. The full width half maximum (FWHM) of X-ray rocking curve was approximately 22.5 ″, and the IR transmittance was approximately 61%, indicating high crystallinity. The mean size of the Te inclusions was approximately 13.4 μm. Single-crystal wafers were cut into 5 × 5 × 2 mm3 slices and then used to fabricate gamma ray detectors. The energy resolution and peak-to-valley ratio maps were constructed while using 59.5 keV gamma ray measurements, which proved the high uniformity of detection performance.
Highlights
Cd1-x Znx Te (CZT) crystals have been used in many fields for X-ray and γ-ray detection and imaging [1,2]
Szeles et al [8] reported eight-inch diameter detector-grade CZT ingots grown while using the high pressure electro-dynamic gradient (HP-EDG) method
We report efforts to grow two-inch single-crystal Cd0.9 Zn0.1 Te ingots using the vertical Bridgman (VB)
Summary
Cd1-x Znx Te (CZT) crystals have been used in many fields for X-ray and γ-ray detection and imaging [1,2]. Used the travelling heater method (THM) to produce two-inch diameter CZT ingots with uniform composition (axial and radial) and electronic properties. Wafer annealing is required to prevent large inclusions from forming in crystals grown from solution [7], which further increases the required growth time. Szeles et al [8] reported eight-inch diameter detector-grade CZT ingots grown while using the high pressure electro-dynamic gradient (HP-EDG) method. Crystals 2020, 10, 261 grew four-inch diameter CZT single crystal wafers using the vertical gradient freezing (VGF) method, where a source with excess Cd was used and located below the seed in a slender ampoule cavity [10]. We report efforts to grow two-inch single-crystal Cd0.9 Zn0.1 Te ingots using the VB method with optimized accelerated crucible rotation technique (ACRT) parameters. The radiation response was measured with small detectors fabricated from CZT wafers
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