红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
2期
372-375
,共4页
胡欣%张文攀%殷瑞光%李慧%赵琳锋%刘艳芳
鬍訢%張文攀%慇瑞光%李慧%趙琳鋒%劉豔芳
호흔%장문반%은서광%리혜%조림봉%류염방
锥形多模光纤%耦合效率%Tracepro%光线追迹%光斑模式
錐形多模光纖%耦閤效率%Tracepro%光線追跡%光斑模式
추형다모광섬%우합효솔%Tracepro%광선추적%광반모식
tapered multimode fiber%coupling efficiency%tracepro%ray tracing%laser mode
基于光线追迹的方法建立了典型锥形多模光纤的传输模型,结合激光干扰设备激光的特点,模拟计算了激光在锥形多模光纤中的耦合效率和传输模式,并设计进行了光学实验.仿真和实验结果表明院高斯激光光斑经锥形多模光纤传输后为圆环形光斑;耦合效率随激光入射角的增大而减小,减小的速率随入射角的增大而减小.为解决圆环形光斑分布,提出了将输出端连接的圆柱形光纤弯曲一定角度的方法,该方法可以将光斑改善为二维正态分布的光斑,理论耦合效率近80%.该研究为激光干扰设备的干扰激光直接介入激光制导武器对抗半实物仿真系统提供了理论和实验支持.
基于光線追跡的方法建立瞭典型錐形多模光纖的傳輸模型,結閤激光榦擾設備激光的特點,模擬計算瞭激光在錐形多模光纖中的耦閤效率和傳輸模式,併設計進行瞭光學實驗.倣真和實驗結果錶明院高斯激光光斑經錐形多模光纖傳輸後為圓環形光斑;耦閤效率隨激光入射角的增大而減小,減小的速率隨入射角的增大而減小.為解決圓環形光斑分佈,提齣瞭將輸齣耑連接的圓柱形光纖彎麯一定角度的方法,該方法可以將光斑改善為二維正態分佈的光斑,理論耦閤效率近80%.該研究為激光榦擾設備的榦擾激光直接介入激光製導武器對抗半實物倣真繫統提供瞭理論和實驗支持.
기우광선추적적방법건립료전형추형다모광섬적전수모형,결합격광간우설비격광적특점,모의계산료격광재추형다모광섬중적우합효솔화전수모식,병설계진행료광학실험.방진화실험결과표명원고사격광광반경추형다모광섬전수후위원배형광반;우합효솔수격광입사각적증대이감소,감소적속솔수입사각적증대이감소.위해결원배형광반분포,제출료장수출단련접적원주형광섬만곡일정각도적방법,해방법가이장광반개선위이유정태분포적광반,이론우합효솔근80%.해연구위격광간우설비적간우격광직접개입격광제도무기대항반실물방진계통제공료이론화실험지지.
Based on ray tracing method, the laser transmission model of typical tapered multimode fiber was established. Integrating the peculiarity of jamming laser beam from the laser jammers, the coupling efficiency and transmission modes of laser spot throughout the tapered multimode fiber were calculated. Experiments were designed and conducted to verify the simulation. The results indicate that the output laser spot behaves circular when a laser spot with Gauss distribution incidences the tapered multimode fiber; the coupling efficiency decreases when the incident angle increases, and the decrement rate decreases as the incident angle increases. In order to solve the circular laser spot distribution, a new method of a small angle bending of the connected cylindrical fiber was introduced, and the output laser spot was improved to two-dimensional normal distribution, the theoretical coupling efficiency was about 80%. This provides a theoretical and experimental support for jamming laser intervening into the laser guided weapon countermeasure hardware-in-loop system.