激光技术
激光技術
격광기술
LASER TECHNOLOGY
2014年
1期
79-82
,共4页
杨海磊%宋连科%王荣新%王会丽
楊海磊%宋連科%王榮新%王會麗
양해뢰%송련과%왕영신%왕회려
物理光学%渥拉斯顿棱镜%偏振干涉%高温相偏硼酸钡%分束角%光程差
物理光學%渥拉斯頓稜鏡%偏振榦涉%高溫相偏硼痠鋇%分束角%光程差
물리광학%악랍사돈릉경%편진간섭%고온상편붕산패%분속각%광정차
physical optics%Wollaston prism%polarization interference%α-BBO%splitting angle%optical path difference
为了拓展成像光谱仪的紫外光谱范围,设计了以高温相偏硼酸钡晶体为双折射材料的渥拉斯顿棱镜。采用计算机模拟的方法进行了理论分析,取得了参量数据图。偏硼酸钡渥拉斯顿棱镜的分束角在紫外区随波长变长呈非线性关系,但在小结构角的情况下有利于整个光谱区内分束角的稳定;棱镜结构角加大会使视场角变小,增大棱镜的结构角和宽度有利提高光谱分辨率。结果表明,当在紫外光至可见光波段使用时,高温相偏硼酸钡渥拉斯顿棱镜设计厚度为6mm ~8mm,结构角不大于15°,入射角控制在1°内比较合适。这一结果为进一步研制可用于紫外光谱范围的成像光谱仪提供了必要的理论依据。
為瞭拓展成像光譜儀的紫外光譜範圍,設計瞭以高溫相偏硼痠鋇晶體為雙摺射材料的渥拉斯頓稜鏡。採用計算機模擬的方法進行瞭理論分析,取得瞭參量數據圖。偏硼痠鋇渥拉斯頓稜鏡的分束角在紫外區隨波長變長呈非線性關繫,但在小結構角的情況下有利于整箇光譜區內分束角的穩定;稜鏡結構角加大會使視場角變小,增大稜鏡的結構角和寬度有利提高光譜分辨率。結果錶明,噹在紫外光至可見光波段使用時,高溫相偏硼痠鋇渥拉斯頓稜鏡設計厚度為6mm ~8mm,結構角不大于15°,入射角控製在1°內比較閤適。這一結果為進一步研製可用于紫外光譜範圍的成像光譜儀提供瞭必要的理論依據。
위료탁전성상광보의적자외광보범위,설계료이고온상편붕산패정체위쌍절사재료적악랍사돈릉경。채용계산궤모의적방법진행료이론분석,취득료삼량수거도。편붕산패악랍사돈릉경적분속각재자외구수파장변장정비선성관계,단재소결구각적정황하유리우정개광보구내분속각적은정;릉경결구각가대회사시장각변소,증대릉경적결구각화관도유리제고광보분변솔。결과표명,당재자외광지가견광파단사용시,고온상편붕산패악랍사돈릉경설계후도위6mm ~8mm,결구각불대우15°,입사각공제재1°내비교합괄。저일결과위진일보연제가용우자외광보범위적성상광보의제공료필요적이론의거。
In order to expand the ultraviolet range of an imaging spectrometer,a Wollaston prism was designed based on the birefringent material of α-BBO crystal.After theoretical analysis and simulation,the data graphs were obtained for some parameters.The splitting angle of the BBO-Wollaston prism has the non-linear relationship with the longer wavelength in the ultraviolet region,but beneficial to the stability of the beam angle in the entire spectral region;larger structure angle will make the field of view angle becomes smaller,and larger structural angle and width will help to promote the spectral resolution.Comprehensive research show that it is proper to design a α-BBO crystal Wollaston prism in thickness from 6mm to 8mm,with the structure angle α≤1 5 °and the angle of incidence smaller than 1 °in the ultraviolet to visible band.The results provide a theoretical basis for the further development of imaging spectrometers used in ultraviolet spectrum range.
