光电工程
光電工程
광전공정
OPTO-ELECTRONIC ENGINEERING
2010年
5期
91-96,122
,共7页
宋曦%朱效立%韦飞%谢常青%谢二庆%刘明
宋晞%硃效立%韋飛%謝常青%謝二慶%劉明
송희%주효립%위비%사상청%사이경%류명
近地空间%X/EUV%透射光栅%有限元%热形变
近地空間%X/EUV%透射光柵%有限元%熱形變
근지공간%X/EUV%투사광책%유한원%열형변
terrestrial space%X/EUV%transmission grating%finite element%thermal deformation
为了实现极紫外透射光栅光谱仪在近地空间的应用,针对其核心色散元件2000线/毫米X/EUV透射光栅,本文采用有限元方法建立了机械模型并对其热学性能和耦合特性进行计算机模拟计算,通过模拟热膨胀系数不同的材料构成的薄膜光栅在近地空间受到太阳辐照后的温度场,得到该光栅表面的热形变分布.结果表明,在高真空热环境下,该透射光栅表面形变量平均可达0.56μm,而影响光栅周期的纵向形变平均值则为71.5 nm.由于热形变会对光栅衍射效率产生重要影响并导致光谱仪精度和性能的下降,利用有限元分析模拟的结果,进一步优化光栅的封装和设计制作,使其栅线处纵向热形变趋近于零,为2000线/毫米X/EUV透射光栅在太阳极紫外辐射探测器上得到应用提供了科学依据和有效支持.
為瞭實現極紫外透射光柵光譜儀在近地空間的應用,針對其覈心色散元件2000線/毫米X/EUV透射光柵,本文採用有限元方法建立瞭機械模型併對其熱學性能和耦閤特性進行計算機模擬計算,通過模擬熱膨脹繫數不同的材料構成的薄膜光柵在近地空間受到太暘輻照後的溫度場,得到該光柵錶麵的熱形變分佈.結果錶明,在高真空熱環境下,該透射光柵錶麵形變量平均可達0.56μm,而影響光柵週期的縱嚮形變平均值則為71.5 nm.由于熱形變會對光柵衍射效率產生重要影響併導緻光譜儀精度和性能的下降,利用有限元分析模擬的結果,進一步優化光柵的封裝和設計製作,使其柵線處縱嚮熱形變趨近于零,為2000線/毫米X/EUV透射光柵在太暘極紫外輻射探測器上得到應用提供瞭科學依據和有效支持.
위료실현겁자외투사광책광보의재근지공간적응용,침대기핵심색산원건2000선/호미X/EUV투사광책,본문채용유한원방법건립료궤계모형병대기열학성능화우합특성진행계산궤모의계산,통과모의열팽창계수불동적재료구성적박막광책재근지공간수도태양복조후적온도장,득도해광책표면적열형변분포.결과표명,재고진공열배경하,해투사광책표면형변량평균가체0.56μm,이영향광책주기적종향형변평균치칙위71.5 nm.유우열형변회대광책연사효솔산생중요영향병도치광보의정도화성능적하강,이용유한원분석모의적결과,진일보우화광책적봉장화설계제작,사기책선처종향열형변추근우령,위2000선/호미X/EUV투사광책재태양겁자외복사탐측기상득도응용제공료과학의거화유효지지.
In order to meet the requirement of Extreme Ultraviolet(EUV)transmission grating spectrometer in terrestrial space,thermal and mechanical properties of 2000 1/mm X/EUV transmission grating was investigated by means of simulation method.The mechanistic model was established and its thermal and coupling properties were simulated using the method of finite element analysis.Moreover,the distributions of thermal field and thermal deformation were obtained based on transmission grating consisting of different materials with different thermal expansion coefficients.The results are shown that the surface deformation of transmission grating is 0.56 μm as well as the longitudinal deformation value is 71.5 nm(average value).Due to thermal deformation,the diffraction efficiency and precision of spectrograph decline.In terms of simulation results,the package and structure of grating were optimized for applications in solar EUV radiation spectroscopies.
