红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
12期
3423-3427
,共5页
陈超%杨鸿儒%吴磊%俞兵%袁良%杨斌%黎高平
陳超%楊鴻儒%吳磊%俞兵%袁良%楊斌%黎高平
진초%양홍유%오뢰%유병%원량%양빈%려고평
选通长度%成像系统%距离选通%选通延迟
選通長度%成像繫統%距離選通%選通延遲
선통장도%성상계통%거리선통%선통연지
gate length%imaging system%range-gated%gate delay
对距离选通成像系统的关键性能参数-选通长度进行了理论分析和实验研究。运用激光波长为532 nm、脉冲宽度为20 ns的Nd:YAG激光器和ICCD系统搭建了一套距离选通成像系统。在改变选通信号宽度和选通延迟时间条件下,通过对视场内不同距离处的白板成像,获得了一系列实验图像。基于白板图像强度分析了选通信号宽度和延迟时间对距离选通成像系统选通长度的影响,并测量了当选通信号宽度为10 ns时,该选通成像系统的有效选通时间长度为35 ns。
對距離選通成像繫統的關鍵性能參數-選通長度進行瞭理論分析和實驗研究。運用激光波長為532 nm、脈遲寬度為20 ns的Nd:YAG激光器和ICCD繫統搭建瞭一套距離選通成像繫統。在改變選通信號寬度和選通延遲時間條件下,通過對視場內不同距離處的白闆成像,穫得瞭一繫列實驗圖像。基于白闆圖像彊度分析瞭選通信號寬度和延遲時間對距離選通成像繫統選通長度的影響,併測量瞭噹選通信號寬度為10 ns時,該選通成像繫統的有效選通時間長度為35 ns。
대거리선통성상계통적관건성능삼수-선통장도진행료이론분석화실험연구。운용격광파장위532 nm、맥충관도위20 ns적Nd:YAG격광기화ICCD계통탑건료일투거리선통성상계통。재개변선통신호관도화선통연지시간조건하,통과대시장내불동거리처적백판성상,획득료일계렬실험도상。기우백판도상강도분석료선통신호관도화연지시간대거리선통성상계통선통장도적영향,병측량료당선통신호관도위10 ns시,해선통성상계통적유효선통시간장도위35 ns。
Gate length of range-gated imaging system as a key characteristics was theoretically and experimentally analyzed in this paper. A frequency doubled 532 nm Nd:YAG laser that the pulse full width at half of maximum (FWHM) was 20 ns and ICCD was used to build up range-gated imaging system, what effects on imaging performance with the change of the bandwidth of the gate signal and gate delay time were studied through a straightforward method, which place white board signs at relevant distances in the field of view. Examples of imagery collected for different range and gate conditions will be presented and discussed with respect to the intensity at the signs in a gated images. When gate signal width is 10 ns, measurement result of the effective temporal gate length is 35 ns.
