红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
5期
1545-1548
,共4页
赵延%邓键%于德志%马燕
趙延%鄧鍵%于德誌%馬燕
조연%산건%우덕지%마연
光学设计%双视场%长波红外%非制冷%光学被动消热差
光學設計%雙視場%長波紅外%非製冷%光學被動消熱差
광학설계%쌍시장%장파홍외%비제랭%광학피동소열차
optical design%dual-field%LWIR%un-cooled%optical passive athermalization
依据光学被动消热差理论,利用硫系玻璃的热稳定性、长波红外透过特性等优点,对长波非制冷双视场光学系统进行了无热化研究,设计了一个大相对孔径、3倍变焦的双视场长波红外光学系统。其具体参数为:F/#为1,焦距为50/150 mm,总长240 mm ,采用640×480的焦平面探测器,像元大小为17μm×17μm,工作波段8~12μm,系统使用了三种长波红外材料:Ge、ZnS、IRG201。在-40~60℃下,其长短焦处像质均接近衍射极限。
依據光學被動消熱差理論,利用硫繫玻璃的熱穩定性、長波紅外透過特性等優點,對長波非製冷雙視場光學繫統進行瞭無熱化研究,設計瞭一箇大相對孔徑、3倍變焦的雙視場長波紅外光學繫統。其具體參數為:F/#為1,焦距為50/150 mm,總長240 mm ,採用640×480的焦平麵探測器,像元大小為17μm×17μm,工作波段8~12μm,繫統使用瞭三種長波紅外材料:Ge、ZnS、IRG201。在-40~60℃下,其長短焦處像質均接近衍射極限。
의거광학피동소열차이론,이용류계파리적열은정성、장파홍외투과특성등우점,대장파비제랭쌍시장광학계통진행료무열화연구,설계료일개대상대공경、3배변초적쌍시장장파홍외광학계통。기구체삼수위:F/#위1,초거위50/150 mm,총장240 mm ,채용640×480적초평면탐측기,상원대소위17μm×17μm,공작파단8~12μm,계통사용료삼충장파홍외재료:Ge、ZnS、IRG201。재-40~60℃하,기장단초처상질균접근연사겁한。
Based on the theory of optical passive atherma lization and the research of athermalization for dual-field-view un-cooled LWIR optical system, a LWIR optical system with large relative aperture and 3x step zoom was designed using chalcogenide glasses which posses good thermal stability and unique LWIR optical properties. The specifications are as follows: F/# is 1, EFL is 50/150 mm, and total length is 240 mm. The 640í480 FPA detector was adopted whose pixel size is 17 μmí17 μm with working band from 8 to 12 μm. Three LWIR material was used in the system which were Ge, ZnS, IRG201. The image quality is diffraction limited from - 40 to 60℃ at both WFOV and NFOV.
