欢迎访问沈阳真空杂志社 Email Alert    RSS服务

VACUUM ›› 2024, Vol. 61 ›› Issue (6): 7-14.doi: 10.13385/j.cnki.vacuum.2024.06.02

• Thin Film • Previous Articles     Next Articles

Design Method and Application of Wavelength Error Compensation for Multi-band Films

WANG Song-lin, ZHANG Jian-fu, MI Gao-yuan, YIN Wan-hong, LIU Qing-long, ZHAO Hong-jun, ZHANG Xiang-ming   

  1. Xi'an Institute of Applied Optics, Xi'an 710065, China
  • Received:2024-02-19 Online:2024-11-25 Published:2024-11-29

Abstract: The optical properties of multi-band thin films elements used in multispectral detection systems directly affect the detection and imagine quality of the system. In order to solve the technical problems caused by the deviation between the multi-band wavelength and the theoretical design spectrum in the process of film preparation, a wavelength error compensation design method was proposed. Combined with the development of 5-band laser film coating on multispectral ZnS optical window, the structure of the film system was designed by using the wavelength error compensation design method, and the film was prepared by vacuum evaporation technology. The experimental results were tested by spectrophotometer and infrared Fourier spectrometer. The results show that the transmittance curves of the multispectral ZnS optical window at five working bands after coating are highly consistent with the theoretical ones, which meet the technical requirements and verify the effectiveness of the wavelength error compensation design method.

Key words: multispectral detection, film preparation, wavelength error compensation, transmittance

CLC Number:  TN305.8;TB79;TN29

[1] KOU T, ZHOU Z, LIU H, et al.Multispectral radiation envelope characteristics of aerial infrared targets[J]. Optics and Laser Technology, 2018, 103: 251-259.
[2] ALIES M YU, ANTONOV E A, KALUGIN, A I, et al.Application of artificial neural networks for the analysis of multispectral images[J]. Journal of Optical Technology, 2021, 88(8): 441-444.
[3] PAN Z W, SHEN H LIANG.Multispectral image super-resolution via RGB image fusion and radiometric Calibration[J]. IEEE Transactions on Image Processing, 2019, 28(4): 1783-1797.
[4] SCHEUNDERS P, BACKER S D.Fusion and merging of multispectral images with use of multiscale fundamental forms[J]. Optical Society of America, 2001, 18(10): 2468-2477.
[5] MENG Z Y, QIAO M, MA J W, et al.Snapshot multispectral endomicroscopy[J]. Optics Letters, 2020, 45(14): 3897-3900.
[6] 王雪培, 赵虹霞, 李青会, 等. 多光谱成像技术分析彩色艺术品的相关基础研究[J]. 光学学报,2015,35(10):304-311.
[7] 谭淞年, 姚园, 徐钰蕾, 等. 航空相机气密光学窗口及其保护罩的设计[J]. 光学精密工程,2022,30(20):2436-2445.
[8] ZHOU F, LI Y, TANG T J.The research of optical windows used in aircraft sensor systems[J]. Chinese Physics B, 2012, 21(6): 064201.
[9] 刘囿辰,马国鹭,赵涌. 组合式力热动态载荷光学窗口的光学特性研究[J]. 应用光学,2021,42(6):1122-1126.
[10] MAURYA G S, JYOTSANA A, PATHAK A K, et al.Spatial analysis of impurities on the surface of flange and optical window of the tokamak using laser induced breakdown spectroscopy[J]. Optics and Lasers in Engineering, 2014, 56: 13-18.
[11] 马昌军,张小兵. 射流干扰实现激光点火光学窗口防污的数值模拟及优化[J]. 兵工学报,2013,34(1):8-13.
[12] QU Y, DAI Y F, CHEN S Y, et al.Integrative design and processing of a conformal optical window pair in a cylindrical isolator[J]. Applied Optics, 2022, 61(21): 6289-6296.
[13] 米高园,杨崇民,张建付,等. 离子束溅射 Al2O3薄膜及其在蓝宝石窗口中的应用[J]. 红外技术,2019,41(10):902-907.
[14] KWON S Y, KIM N Y, JO T Y, et al.Critical dimension measurement of transparent film layers by multispectral imaging[J]. Optics Express, 2014, 22(14): 17370-17381.
[15] SMITH E M, STREYER W H, NADER N, et al.Metal germanides for practical on-chip plasmonics in the mid infrared[J]. Optical Materials Express, 2018, 8(4): 968-982.
[16] RYAN C M, HARRIS D C, WRIGHT J C, et al.Slow crack growth in multispectral zinc sulfide for use in aircraft window design[J]. Optical Engineering, 2022, 61(4): 047103.
[17] LIU G H, ZHOU Z Z, FEI F, et al.Hard antireflective films of SiAlON for zinc sulfide in 3-5 lm regions[J]. Infrared Physics & Technology, 2013, 60(1): 118-120.
[18] BALAJI G, BALASUNDARAPRABHU R, PRASANNA S, et al.Investigations of RF magnetron sputtered CZTS absorber layer thin films prepared using sulfur induced binary targets without sulfurization[J]. Optical Materials, 2018, 75: 56-60.
[19] 付秀华, 魏雨君, 林兆文, 等. 可见光减反射膜层控制误差的分析与性能优化[J]. 光学精密工程,2024,32(1):1-11.
[20] LIU F, YANG C, ZHANG J, et al.Effect of substrate baking temperature on zinc sulfide and germanium thin films optical parameters[C]//International Symposium on Optoelectronic Technology and Application 2016.Bijing, China: SPIE, 2016, 10157: 101573.
[21] 王松林, 杨崇民, 张建付, 等. 基底温度对电子束蒸发制备氧化铝薄膜的影响[J]. 应用光学,2013,34(5):764-767.
[22] 冯毅东, 于天燕, 刘定权. 沉积工艺对YbF3薄膜可靠性的影响[J]. 光学学报,2018,38(7):377-382.
[1] REN Dong-xue, SUN Xiao-jie, CHEN Lan-lan. Preparation and Properties of Functional PET Composite Films [J]. VACUUM, 2023, 60(4): 18-23.
[2] FENG Gang, MENG Zheng, YANG Xue-dong, ZHANG Hao-yun, YU Gang, GAO Hui, WANG Wei-cai, SONG Meng, SUN Yong, KONG Zhuang, JIA Jin-sheng, WANG Hong. Measurement and Analysis of Light Transmittance and Shielding Coefficient of All Inorganic Solid-state Electrochromic Window [J]. VACUUM, 2023, 60(1): 13-16.
[3] LIU Yuan-dong. Study on the Properties of Large-area ZnO Thin Films Fabricated by Magnetron Sputtering Deposition [J]. VACUUM, 2022, 59(1): 29-32.
[4] SHEN Hong-xue, LI Gang, YAO Ting-ting, JIN Bao-qi, JIN Ke-wu, WANG Tian-qi. Study on the Photoelectric Properties of N Doped CN Thin Films [J]. VACUUM, 2020, 57(3): 34-36.
[5] ZHANG Fen-li, WANG Jie-feng, DENG Jing-lian, SUN Hui-fang. Application of self-cleaning anti-reflection coating in solar collector tube [J]. VACUUM, 2019, 56(3): 41-43.
[6] LI Ru-yong, DUAN Ping, CUI Min, WANG Ji-you, YUAN An-juan, DENG Jin-xiang. Effect of post-annealing on Mg doped Ga2O3 films deposited by RF magnetron sputtering [J]. VACUUM, 2019, 56(3): 37-40.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] LI De-tian, CHENG Yong-jun, ZHANG Hu-zhong, SUN Wen-jun, WANG Yong-jun, SUN Jian, LI Gang, . Preparations and applications of carbon nanotube field emitters[J]. VACUUM, 2018, 55(5): 1 -9 .
[2] ZHOU Bin-bin, ZHANG jian, HE Jian-feng, DONG Chang-kun. Carbon nanotube field emission cathode based on direct growth technique[J]. VACUUM, 2018, 55(5): 10 -14 .
[3] CHAI Xiao-tong, WANG Liang, WANG Yong-qing, LIU Ming-kun, LIU Xing-zhou, GAN Shu-yi. Operating parameter data acquisition system for single vacuum pump based on STM32F103 microcomputer[J]. VACUUM, 2018, 55(5): 15 -18 .
[4] LI Min-jiu, XIONG Tao, JIANG Ya-lan, HE Yan-bin, CHEN Qing-chuan. 20kV high voltage based on double transistor forward converter pulse power supply for metal deburring[J]. VACUUM, 2018, 55(5): 19 -24 .
[5] LIU Yan-wen, MENG Xian-zhan, TIAN Hong, LI Fen, SHI Wen-qi, ZHU Hong, GU Bing. Test of ultra high vacuum in space traveling-wave tube[J]. VACUUM, 2018, 55(5): 25 -28 .
[6] XU Fa-jian, WANG Hai-lei, ZHAO Cai-xia, HUANG Zhi-ting. Application of chemical gases vacuum-compression recovery system in environmental engineering[J]. VACUUM, 2018, 55(5): 29 -33 .
[7] XIE Yuan-hua, HAN Jin, ZHANG Zhi-jun, XU Cheng-hai. Discussion on present situation and development trend of vacuum conveying[J]. VACUUM, 2018, 55(5): 34 -37 .
[8] SUN Li-zhi, YAN Rong-xin, LI Tian-ye, JIA Rui-jin, LI Zheng, SUN Li-chen, WANG Yong, WANG Jian, . Research on distributing law of Xenon in big accumulation chamber[J]. VACUUM, 2018, 55(5): 38 -41 .
[9] HUANG Si, WANG Xue-qian, MO Yu-shi, ZHANG Zhan-fa, YING Bing. Experimental study on similarity law of liquid ring compressor performances[J]. VACUUM, 2018, 55(5): 42 -45 .
[10] CHANG Zhen-dong, MU Ren-de, HE Li-min, HUANG Guang-hong, LI Jian-ping. Reflectance spectroscopy study on TBCs prepared by EB-PVD[J]. VACUUM, 2018, 55(5): 46 -50 .
辽ICP备06004570号-4
Copyright © VACUUM, All Rights Reserved.
Tel: (024)24134406 24110136 24121929 Fax: (024) 24121929 E-mail: zkzk1964@126.com
Powered by Beijing Magtech Co. Ltd