卫星激光防护薄膜窗口的设计与制备技术研究

姜玉刚; 刘华松; 王利栓; 陈丹; 李士达; 季一勤

doi:10.3788/CO.20191204.0804

卫星激光防护薄膜窗口的设计与制备技术研究

doi: 10.3788/CO.20191204.0804

姜玉刚^{1, 2,},
刘华松^{1, 2, ,},
王利栓^{1, 2},
陈丹^{1, 2},
李士达^{1, 2},
季一勤^{1, 2}

1.
天津津航技术物理研究所, 天津市薄膜光学重点实验室, 天津 300308
2.
光电材料智能表面织构技术联合实验室, 天津 300308

基金项目:

国家自然科学基金 61705165

国家自然科学基金 61775167

国家自然科学基金 61235011

天津市自然科学基金 18JCZDJC37900

详细信息

作者简介:
姜玉刚(1985-), 男, 安徽霍邱人, 博士后, 高级工程师, 主要从事低损耗激光薄膜、固体激光薄膜设计、制备和检测技术方面的研究。E-mail:jygang_4089@163.com

刘华松(1980-), 男, 辽宁阜新人, 博士, 研究员, 主要从事光学薄膜的设计、制备与表征技术, 光学薄膜材料物理方面的研究。E-mail:liuhuasong@hotmail.com

中图分类号: TB34;O434
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出版历程
- 收稿日期: 2018-08-31
- 修回日期: 2018-09-25
- 刊出日期: 2019-08-01

Design and preparation technology of laser protective film window of satellite

JIANG Yu-Gang^{1, 2
,},
LIU Hua-Song^{1, 2
, ,},
WANG Li-Shuan^{1, 2},
CHEN Dan^{1, 2},
LI Shi-Da^{1, 2},
JI Yi-Qin^{1, 2}

1.
Tianjin Key Laboratory of Optical Thin Film, Tianjin Jinhang Institute of Technical Physics, Tianjin 300308, China
2.
Joint Laboratory of Optoelectronic Materials and Intelligent Surface Structures, Tianjin 300308, China

Funds:

National Natural Science Foundation of China 61705165

National Natural Science Foundation of China 61775167

National Natural Science Foundation of China 61235011

Natural Science Foundation of Tianjin Province 18JCZDJC37900

More Information

Corresponding author: LIU Hua-Song, E-mail:liuhuasong@hotmail.com

摘要

摘要: 当前反卫星激光武器发展迅猛，迫切需要研究和发展卫星的激光防护技术，以增强卫星在空间的生存与防护能力。本文采用可见光-近红外透明和中波吸收的玻璃基底与线性激光防护薄膜相结合的设计方法，在玻璃基板一面设计分光膜，实现1.315 μm波长的反射和0.5~0.8 μm、1.55 μm波段的增透，在玻璃基板另一面设计双波段减反射膜，实现0.5~0.8 μm和1.55 μm波段的增透。采用离子束溅射沉积技术，实现了激光防护窗口薄膜的制备，在0.5~0.8 μm的平均透过率大于96%，1.55 μm的透过率大于98%，1.315 μm的透过率小于0.1%，在2.7 μm的透过率为30%，在3.8 μm的透过率为1.1%。实验结果表明，该方法实现了可见光-近红外-中红外波段激光防护窗口的制备，对于卫星平台防护激光武器具有重要作用。
- 激光武器 /
- 离子束溅射技术 /
- 防护薄膜 /
- 透过率 /
- 反射率
Abstract: In view of the current development of anti-satellite laser weapons, it is urgent to study and develop laser protection technology of satellites to enhance their survival and protection capabilities in space. In this paper, a glass substrate with transparency in the visible to near infrared wavelengths and absorption in middle infrared wavelengths was chosen, and a linear laser protective film was designed on its two sides. A beam splitter was designed on one side of the substrate and could achieve high reflectivity at a 1.315 μm wavelength and antireflection in 0.5~0.8 μm and 1.55 μm wavelength. Dual-band antireflection film was designed on the other side of the glass substrate and could achieve antireflection in 0.5~0.8 μm and 1.55 μm wavelengths. Using ion beam sputtering deposition technology, a laser protective film window was prepared, achieving the transmittance greater than 96% at 0.5~0.8 μm, greater than 98% at 1.55 μm, less than 0.1% at 1.315 μm, 30% at 2.7 μm and 1.1% at 3.8 μm. The experimental results show that this method is effective in the preparation of laser protection windows in the near-visible mid-infrared band and is very important in the protection of the satellite platforms from laser weapons.
- laser weapon /
- ion beam sputtering technique /
- protective film /
- transmittance /
- reflectance

HTML全文

图 1 Ta₂O₅薄膜和SiO₂薄膜的可见光-近红外透过率曲线

Figure 1. Transmittance curves of Ta₂O₅ and SiO₂ films in the range from visible to near infrared wave band

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图 2 Ta₂O₅薄膜和SiO₂薄膜的近红外-中红外透射率曲线

Figure 2. Transmittance curves of Ta₂O₅ film and SiO₂ film in the range from near infrared to middle infrared wave band

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图 3 单层膜结构示意图

Figure 3. Schematic diagram of single-layer film structure

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图 4 离子束溅射Ta₂O₅和SiO₂薄膜的折射率曲线

Figure 4. Refractive index curves of Ta₂O₅ and SiO₂ films prepared by IBS

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图 5 线性激光防护窗口示意图

Figure 5. Schematic diagram of linear laser protection window

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图 6 双波段减反射薄膜和三波段分光薄膜的理论设计透过率曲线

Figure 6. Theoretical design transmittance curve of two-band antireflective film and three band spectroscopic thin film

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图 7 线性激光防护窗口的理论设计透过率曲线

Figure 7. Theoretical design transmittance curve of linear laser protection window

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图 8 线性激光防护窗口薄膜的可见光-近红外透射曲线

Figure 8. Measured visible-near infrared transmission curve of linear laser protective window

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图 9 线性激光防护窗口薄膜的近红外-中红外透射曲线

Figure 9. Measured near infrared-middle infrared transmission curve of linear laser protective window

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