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Journal of Synthetic Crystals ›› 2026, Vol. 55 ›› Issue (6): 867-877.DOI: 10.16553/j.cnki.issn1000-985x.2026.0042

• Research Articles • Previous Articles     Next Articles

Effect of High-Temperature Annealing on Optical Properties of AlN Crystals

ZHANG Ying1,2(), XU Zongwei1(), WANG Zenghua2, CHENG Hongjuan2   

  1. 1.State Key Laboratory of Precision Measuring Technology and Instruments,Tianjin University,Tianjin 300072,China
    2.CETC Key Laboratory of Advanced Semiconductor Crystal Materials and Technologies,the 46th Research Institute,CETC,Tianjin 300220,China
  • Received:2026-04-16 Online:2026-06-20 Published:2026-07-07
  • Contact: XU Zongwei

Abstract: In this paper,AlN single crystals were grown by physical vapor transport method and subjected to high-temperature annealing treatment. By adjusting the high-temperature annealing time,temperature and other parameters,AlN single crystals with high transmission performance in the deep-ultraviolet band were successfully obtained. The surface morphology,crystalline quality and optical properties were systematically characterized. The results indicate that high-temperature annealing process effectively reduces the defect density and significantly improves the crystalline quality of AlN crystals. Specifically,the full width at half maximum of (0002) plane rocking curve decreases from 91.2″ to 28.5″. However,high annealing temperature (1 900 ℃) leads thermal corrosion morphology on the wafer surface and there is no transmittance in the deep-ultraviolet and visible light regions. The high-temperature annealing process has no significant effect on the optical properties of the central colorless region of the AlN wafer,and significantly improves the optical transmission performance of the colored edge region. Compared with AlN wafers before annealing,the most significant effect on the improvement of optical properties is achieved under annealing process at 1 800 ℃ for 7 h. The transmittance at 265 nm increases from 23.59% to 48.61%,and the corresponding absorption coefficient decreases from 45.26 cm-1 to 22.59 cm-1. The research provides theoretical guidance for improving the performance of AlN-based optoelectronic devices.

Key words: high-temperature annealing; AlN single crystal; point defect; optical absorption; ultraviolet transmittance

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