闽江学院学报
閩江學院學報
민강학원학보
JOURNAL OF MINJIANG UNIVERSITY
2011年
5期
28-30,50
,共4页
黑膜%低反射%Cr金属膜
黑膜%低反射%Cr金屬膜
흑막%저반사%Cr금속막
black coating%low reflectivity%Cr metal coating
在光通讯分光器件中,光被分光后,总是存在一部分光无法被利用,成为对系统有害的杂散光,要求被完全吸收,同时要求其不能由于反射沿原光路返回,影响前级元件的性能.这就要求制备一种近红外黑膜,既要完全吸收光波,同时又不存在反射光.在以Cr金属膜为基础,在工作波段1 100~1 650 nm之间,设计了一种低反射近红外吸收膜,并采用离子束辅助蒸发技术在玻璃基底上制备了此黑膜,采用分光光度计测量了其透光率与反射率,透光率达到-32 dB以下,表面反射在1 100~1 650 nm之间小于0.5%.采用3M 600P胶带对薄膜的附着力进行了测试,薄膜附着力良好.实验结果表明该膜系完全达到高吸收和低反射的黑膜使用要求.
在光通訊分光器件中,光被分光後,總是存在一部分光無法被利用,成為對繫統有害的雜散光,要求被完全吸收,同時要求其不能由于反射沿原光路返迴,影響前級元件的性能.這就要求製備一種近紅外黑膜,既要完全吸收光波,同時又不存在反射光.在以Cr金屬膜為基礎,在工作波段1 100~1 650 nm之間,設計瞭一種低反射近紅外吸收膜,併採用離子束輔助蒸髮技術在玻璃基底上製備瞭此黑膜,採用分光光度計測量瞭其透光率與反射率,透光率達到-32 dB以下,錶麵反射在1 100~1 650 nm之間小于0.5%.採用3M 600P膠帶對薄膜的附著力進行瞭測試,薄膜附著力良好.實驗結果錶明該膜繫完全達到高吸收和低反射的黑膜使用要求.
재광통신분광기건중,광피분광후,총시존재일부분광무법피이용,성위대계통유해적잡산광,요구피완전흡수,동시요구기불능유우반사연원광로반회,영향전급원건적성능.저취요구제비일충근홍외흑막,기요완전흡수광파,동시우불존재반사광.재이Cr금속막위기출,재공작파단1 100~1 650 nm지간,설계료일충저반사근홍외흡수막,병채용리자속보조증발기술재파리기저상제비료차흑막,채용분광광도계측량료기투광솔여반사솔,투광솔체도-32 dB이하,표면반사재1 100~1 650 nm지간소우0.5%.채용3M 600P효대대박막적부착력진행료측시,박막부착력량호.실험결과표명해막계완전체도고흡수화저반사적흑막사용요구.
In tele-communication beam splitting device,there is always part of light been abandoned after splitting,which maybe become the harmful scattering light and should be absorbed 100%.And such light should not return along the light path,which will affect the priority components ' performance.So,this requires fabricating one kind of black coating in near infrared region,which not only 100% absorb the light,but has very low reflectivity.In this paper,based on Cr metal coating,between 1 100-1 700 nm,one kind of near infrared black coating with very low reflectivity was designed and fabricated by ion beam assisted electron beam evaporation.The transmission and reflectivity were measured by Shimadazu UV-3 600 spectrometer,and the transmission is lower than-32 dB;the reflectivity is lower than 0.5% between 1 100 nm and 1 650 nm.By 3M 600 tape,the coating ' s adhesion was tested and the results show that coating have good adhesion performance.So this black coating gets to the target of black coating with high absorption and very low reflectivity.
