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人工晶体学报 ›› 2023, Vol. 52 ›› Issue (12): 2203-2209.

• 研究论文 • 上一篇    下一篇

泡生法制备低吸收蓝宝石晶体及其性能研究

赵鹏1,2, 宋建军3, 张微1,2, 承刚1,2, 张立生1,2, 付春雷3, 石刚3, 黄存新1,2   

  1. 1.北京中材人工晶体研究院有限公司,北京 100018;
    2.中材人工晶体研究院有限公司,北京 100018;
    3.内蒙古晶环电子材料有限公司,呼和浩特 010000
  • 收稿日期:2023-10-10 出版日期:2023-12-15 发布日期:2023-12-26
  • 作者简介:赵 鹏(1989—),男,山东省人,博士,高级工程师。E-mail:zhaopeng8903@163.com
  • 基金资助:
    国家重点研发计划(2022YFB3705900)

Preparation and Properties of Low-Absorption Sapphire Crystal by Modified Kyropoulos Method

ZHAO Peng1,2, SONG Jianjun3, ZHANG Wei1,2, CHENG Gang1,2, ZHANG Lisheng1,2, FU Chunlei3, SHI Gang3, HUANG Cunxin1,2   

  1. 1. Beijing Sinoma Synthetic Crystals Co., Ltd., Beijing 100018, China;
    2. Sinoma Synthetic Crystals Co., Ltd., Beijing 100018, China;
    3. Inner Mongolia Jinghuan Electronic Material Co., Ltd., Hohhot 010000, China
  • Received:2023-10-10 Online:2023-12-15 Published:2023-12-26

摘要: 为保障我国相关国防重大工程对低吸收蓝宝石晶体材料的需求,本文通过自主研制的晶体生长设备,成功生长了低吸收蓝宝石晶体。该晶体在紫外、可见光、近-中红外波段展现出了良好的透过率,波长250~400 nm的透过率大于83%,波长400~4 200 nm的透过率超过85%。在晶体不同区域进行取样表征测试,得到晶体的平均位错密度为253.19 cm-2,摇摆曲线对称且峰形尖锐,半峰全宽为14″。此外,值得注意的是,晶体在1 064 nm处的光吸收系数均在(23.3~30.4)×10-6 cm-1,表明晶体内部的杂质元素得到有效控制,晶体光学性能优异,可用于高能激光系统、空间相机镜头等应用场景。

关键词: 低吸收, 泡生法, 杂质元素, 光吸收系数, 透过率, 位错密度

Abstract: In order to meet the demand for low-absorption sapphire crystal materials in important national defense projects in China, a self-produced crystal growth apparatus is developed in this study and the successful growth of low-absorption sapphire crystal can be achieved. The as-obtained crystal exhibits excellent transparency in the ultraviolet, visible, and near to mid-infrared wavelength ranges. The transmittance is above 83% as the wavelength in the range of 250 nm to 400 nm, while the transmittance is above 85% as the wavelength in the range of 400 nm to 4 200 nm. On the basis of the characterization tests conducted on different regions of the crystal, the average dislocation density of crystal can be determined as 253.19 cm-2. The rocking curve shows symmetrical and sharp peaks with a full width at half maximum of 14″. In addition, it is worth noting that the light absorption coefficient of crystal is (23.3~30.4)×10-6 cm-1 at the wavelength of 1 064 nm, indicating that the impurity elements inside the crystal can be effectively controlled. Accordingly, the outstanding optical properties crystal can be applied in high-energy laser systems, space camera lenses and other relevant fields.

Key words: low absorption, Kyropoulos method, impurity element, light absorption coefficient, transmittance, dislocation density

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