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Design and analysis of spectral beam combining system for fiber lasers based on a concave grating 下载免费PDF全文
A novel fiber laser spectral beam combining scheme based on a concave grating is presented.The principle of the presented system is analyzed,and a concave grating with blazed structure for spectral beam combining is designed.The combining potential of the system is analyzed,and the results show that 39 Yb-doped fiber laser can be spectrally beam combined via the designed system.By using scalar diffraction theory,the combining effect of the system is analyzed.The results show that the diffraction efficiency of the designed concave grating is higher than 72% over the whole gain bandwidth,and the combining efficiency is 73.4%.With output power of 1 kW for individual fiber laser,combined power of 28.6 kW can be achieved. 相似文献
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基于级联体光栅的光纤激光阵列谱组束 总被引:2,自引:0,他引:2
提出了一种基于级联体光栅(VBG)的谱组束方案,组柬阵元数可随级联体光栅的数目倍增.给出了一个双光栅级联谱组束系统实例,将组束阵元按波长分为两组,利用具有相应波长选择性的体光栅分别对它们进行组束,由于两个级联体光栅的角度选择性互不重叠,所有光束经第二个体光栅后都沿其布拉格(Bragg)角方向出射,实现近场和远场的功宰叠加.为保证各光束传播方向的一致性,采用严格耦合波理论推导出了准确计算光束入射角的解析式.数值计算结果表明各光束的平均衍射效率优于80%,在入射角偏离理论值不超过±5'(≈2.424×10-5rad)的条件下组束光中所有光束的传播方向偏差小于4×10-7rad. 相似文献
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针对光纤激光阵列相干组束中各路光束位相的检测,提出了一种基于快速傅里叶变换的位相检测方法.该方法不需对参考光进行频移,利用各路光束与参考光束间位相变化引起的条纹图移动实现位相检测.同时,为了减小傅里叶变换过程中由于能量泄漏引入的检相误差,提出了条纹图整周期裁剪的方法,用于克服能量泄漏的影响,可有效提高傅里叶变换法的检相精度.文中详述了位相检测的基本原理,分析了能量泄漏对傅里叶变换的影响,数值计算结果表明该方法的检相误差优于光波长的1/1000,从而为光纤激光阵列的高精度位相调节奠定了基础. 相似文献