硒化锌基底2-16 μm超宽带硬质红外增透膜的研制

潘永强; 杭凌侠; 梁海锋; 田刚

doi:doi:10.3788/aos20103004.1201

光学学报, 2010, 30 (4): 1201, 网络出版: 2010-04-20

硒化锌基底2-16 μm超宽带硬质红外增透膜的研制

UltraBroad Band and Hard Infrared Antiflection Coatings on ZnSe for 2-16 μm

论文大纲

潘永强 ^*杭凌侠梁海锋田刚

作者单位

西安工业大学陕西省薄膜技术与光学检测重点实验室,陕西西安 710032

摘要

硒化锌材料具有较宽的透光区,使其在红外区有着广泛的应用,然而其作为基底,镀制超宽带增透膜却有相当大的难度,尤其是膜层强度问题。设计出了硒化锌基底上2-16 μm的多层超宽带增透膜,并采用离子束辅助沉积工艺在硒化锌基底上进行了多次实验,并对所使用的氟化钇(YF3)和硒化锌膜料进行了分析,发现YF3在3400和1640 cm-1两个波数处的吸收峰。通过将低折射率层改为氟化钡和氟化钇的组合层后,在硒化锌基底上成功镀制出了多层宽带增透膜并采用脉冲电弧离子镀技术在多层薄膜的表面镀制了一定厚度的类金刚石(DLC)薄膜,增强了膜层的强度。最终使硒化锌基底上镀制的超宽带增透膜在2-16 μm范围内的平均透射比大于93%,峰值透射比大于97%,并且膜层的强度较好。

Abstract

Zinc selenide (ZnSe) is widely used for infrared (IR) optical systems because of its wideband transmission region. However as a substrate,it is very difficult to deposit ultrabroad band multilayer antireflection (MLAR) coatings in IR region,especially for the durability. 2-16 μm ultrabroad band MLAR coatings on ZnSe are designed and produced many times by ion beam assisted electron-beam deposition. The absorption rate of YF3 at 3400 and 1640 cm-1 is found by deposition single ZnSe and YF3 films on Ge substrate. Finally,2-16 μm ultrabroad band MLAR coatings are deposited by using BaF2 and YF3 as the low-index materials. DLC films are deposited on external MLAR coatings by pulsed vacuum arc ion deposition.The measured results show that the average transmittance is greater than 93%,the peak transmittance is higher than 97% and the durability,stability are both advanced.

参考文献

[1] 李大琪,刘定权,张凤山. 6.4-15 μm宽带增透膜的设计与制作[J]. 红外与毫米波学报,2006,25(2):135-137

Li Daqi,Liu Dingquan,Zhang Fengshan. Design and fabrication of 6.4-15 μm broadband antireflection coatings[J]. J. Infrared Millim.Waves,2006,25(2):135-137

[2] 于天燕,朱福荣,刘定权等. 硫化锌透镜中长波红外宽带增透膜的研制[J]. 光学学报,2005,25(2):270-273

Yu Tianyan,Zhu Furong,Liu Dingquan et al.. Designed and deposition of broadband IR antireflection coatingns on ZnS lenses[J]. Acta Optica Sinica,2005,25(2):270-273

[3] . L. Nagendra,G. K. M. Thutupalli. Design of three-layer antireflection coatings:a generalized approach[J]. Appl. Opt., 1988, 27(11): 2320-2333.

[4] . Premoli,M. L. Rastello. Minimax refining of wideband antireflection coatings for wide angular incidence[J]. Appl. Opt., 1994, 33(10): 2018-2024.

[5] . R. Phillips,V. Haynes,D. A. Naylor et al.. Simple method for antireflection coating ZnSe in the 20 μm wavelength range[J]. Appl. Opt., 2008, 47(7): 870-873.

[6] 王文梁,熊胜明. 光学薄膜自动设计的多目标优化方法[J]. 光学学报,2008,28(10):2026-2030

Wang Wenliang,Xiong Shengming. Multiobjective optimization approach of optical thin film design[J]. Acta Optica Sinica,2008,28(10):2026-2030

[7] . Ghosh,P. Kant,P. K. Bandyopadhyay et al.. Antireflection coating on germanium for dual channel (3-5 and 7.5-10.6 μm) thermal imagers[J]. Infrared Phy. & Technol., 1999, 40(1): 49-53.

[8] 潘永强,朱昌,杭凌侠等.锗基底3-5 μm和8-12 μm双波段红外增透膜研究[J]. 激光与红外,2004,34(5):372-374

Pan Yongqiang,Zhu chang,Hang Lingxia et al.. Double waveband ( 3-5 μm and 8-12 μm) high performance infrared anti-reflection coatings on germanium substrate[J]. Laser & Infrared,2004,34(5):372-374

[9] . J. Martin,R. P. Netterfield. Optical thin films produced by ion based techniques[J]. Progress in Optics, 1989, 23: 113-182.

[10] . Lemarquis,G. Marchand,C. Amra et al.. Design and manufacture of low-absorption ZnS-YF3 antireflection coatings in the 3.5-16 μm spectral range[J]. Appl. Opt., 1998, 37(19): 4239-4244.

[11] . Ghosh,P. K. Bandyopadhyay. Broad band antireflection coating on silicon from1.5 to 6 μm spectral band[J]. Infrared Phys. & Technol., 2005, 46(5): 408-411.

[12] 潘永强,朱昌. 硒化锌基底8-12 μm 高性能增透膜的研究[J]. 红外与激光工程,2005,34(4):394-396

Pan Yongqiang,Zhu Chang. High performance infrared antireflection films on ZnSe substrate for 8-12 μm[J]. Infrared and Laser Engineering,2005,34(4):394-396

[13] 张德恒,徐照方,李伯勋.DLC/Ag/DLC复合多层薄膜光学性能[J]. 光学学报,2008,28(10):2031-2035

Zhang Deheng,Xu Zhaofang,Li Boxun. Study on optical property of DLC/Ag/ DLC multilayer films[J]. Acta Optica Sinica,2008,28(10):2031-2035

[14] 唐晋发,顾培夫,刘旭等. 现代光学薄膜技术[M] . 浙江:浙江大学出版社,2006. 20-27

Tang Jinfa,Gu Peifu,Liu Xu et al.. Modern Optical Thin Film Technology[M]. Zhejiang:Zhejiang University Press,2006. 20-27

潘永强, 杭凌侠, 梁海锋, 田刚. 硒化锌基底2-16 μm超宽带硬质红外增透膜的研制[J]. 光学学报, 2010, 30(4): 1201. Pan Yongqiang, Hang Lingxia, Liang Haifeng, Tian Gang. UltraBroad Band and Hard Infrared Antiflection Coatings on ZnSe for 2-16 μm[J]. Acta Optica Sinica, 2010, 30(4): 1201.

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