红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
5期
1490-1498
,共9页
扩展源%平均密度场%光传输%成像%畸变
擴展源%平均密度場%光傳輸%成像%畸變
확전원%평균밀도장%광전수%성상%기변
extended source%mean flow field%light transmission%imaging%distortion
扩展源发出的光经过平均密度场传输的成像还没有被充分地研究。当某个扩展源与某个侧窗头罩内的成像系统相距较近时,用光线追迹和傅立叶光学研究该扩展源发出的光经过平均密度场传输的成像特性。研究发现扩展源上不同点光源的成像偏移角和成像模糊指标有差异。因此采用综合偏移指标、综合模糊指标来分别描述扩展源成像的总体偏移、模糊情况。研究发现:当扩展源和成像系统的相对位置不变,平均密度场相对成像系统分别沿流向、展向、光轴方向平移时,上述两个指标均会发生变化。并且在这三种情况下这两个指标的变化情况各不相同。对上述现象的原因进行了深入的分析。在工程设计中,该研究有助于选择成像系统相对窗口的合适安装位置。
擴展源髮齣的光經過平均密度場傳輸的成像還沒有被充分地研究。噹某箇擴展源與某箇側窗頭罩內的成像繫統相距較近時,用光線追跡和傅立葉光學研究該擴展源髮齣的光經過平均密度場傳輸的成像特性。研究髮現擴展源上不同點光源的成像偏移角和成像模糊指標有差異。因此採用綜閤偏移指標、綜閤模糊指標來分彆描述擴展源成像的總體偏移、模糊情況。研究髮現:噹擴展源和成像繫統的相對位置不變,平均密度場相對成像繫統分彆沿流嚮、展嚮、光軸方嚮平移時,上述兩箇指標均會髮生變化。併且在這三種情況下這兩箇指標的變化情況各不相同。對上述現象的原因進行瞭深入的分析。在工程設計中,該研究有助于選擇成像繫統相對窗口的閤適安裝位置。
확전원발출적광경과평균밀도장전수적성상환몰유피충분지연구。당모개확전원여모개측창두조내적성상계통상거교근시,용광선추적화부립협광학연구해확전원발출적광경과평균밀도장전수적성상특성。연구발현확전원상불동점광원적성상편이각화성상모호지표유차이。인차채용종합편이지표、종합모호지표래분별묘술확전원성상적총체편이、모호정황。연구발현:당확전원화성상계통적상대위치불변,평균밀도장상대성상계통분별연류향、전향、광축방향평이시,상술량개지표균회발생변화。병차재저삼충정황하저량개지표적변화정황각불상동。대상술현상적원인진행료심입적분석。재공정설계중,해연구유조우선택성상계통상대창구적합괄안장위치。
Extended source light transmission through mean flow field and imaging have not been fully studied. When an extended source is closed to an imaging system in a forebody with a side-mounted window, light emitted by this extended source passing through the mean flow field and imaging are studied with ray tracing and Fourier optics. It is found that imaging deviation angles and imaging blur indexes of different point sources of the extended source are different. So integrated deviation index and integrated blur index are adopted to describe entire deviation and blur conditions of the extended source imaging, respectively. It is also found that when the relative position of the extended source and imaging system is invariant, and the mean flow field moves along flow, expansion and optical axis directions relative to the imaging system respectively, integrated deviation index and integrated blur index vary. Varying conditions of the two indexes are different among the three moving conditions. The reasons of these phenomena are deeply analyzed. In engineering design, this research may be beneficial to selection of a proper location of the imaging system relative to the window.