共查询到18条相似文献,搜索用时 62 毫秒
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报道了一种利用球差补偿效应提高侧面泵浦主振荡功率放大器输出光束质量的实验装置。在理论上提出了一种新的球差补偿方法,利用正球差经过会聚透镜焦点后向负球差转化的现象,补偿下一放大级中的正球差效应。在实验上搭建了两级放大的侧面泵浦Nd:YAG主振荡功率放大器。在连续输出的情况下,从振荡级输出功率为42 W、光束质量因子为1.48的种子光,经过一级放大后的功率为74 W,光束质量因子恶化为1.80;继续经过二级放大后,光束质量因子提高为1.40。实验结果表明,所提出的球差补偿理论是提高激光放大过程中光束质量的有效手段。 相似文献
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研制了大能量高光束质量短脉冲激光器,系统采用主振荡+预放大器+主放大器2级主振荡功率放大器(MOPA)结构。采用双棒热效应补偿改善光束质量的措施,在重复频率400 Hz时实现单脉冲能量40 mJ、光束质量因子约为1.2的激光输出。激光器放大后实现单路脉冲能量712.5 mJ、脉宽12.4 ns的激光输出,采用球差补偿的方法提高了激光器的光束质量,在最大输出功率下实现了光束质量因子小于2.3,光光效率27.7%。偏振合束后,激光器输出能量大于1.4 J。 相似文献
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主要讨论泵浦光束质量对低气压拉曼种子源特性的影响。文中给出了一阶斯托克斯光泵浦阈值、输出能量和光束质量的实验数据。用M^2因子分析了泵浦光和一阶斯托克斯光的光束质量。根据考虑泵浦聚焦和泵浦光束质量影响的近似拉曼散射理论计算了泵浦阈值的理论曲线,并与实验数据和有关文献进行了比较。 相似文献
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太阳光泵浦激光器直接利用太阳光作为泵浦源,实现了太阳光能量到激光能量的直接转化。设计了分腔水冷型金属锥形泵浦腔,以直径8 mm,长115 mm的Nd:YAG晶体棒作为激光工作物质,用有效面积1.03 m2菲涅尔透镜会聚太阳光,实验获得了23.7 W的稳定激光输出,斜效率为7.87%。通过对比实验,改进后的分腔水冷型太阳光泵浦激光器较原有锥形腔激光器有55.92%的激光输出功率提升。分别从侧面泵浦光在冷却水中的吸收损耗以及其耦合效率等方面对新型腔体结构进行了分析,证实了分腔水冷型腔体结构对侧面泵浦效率的提高,并提出了陶瓷漫反射材质的分腔水冷型激光腔的设计。 相似文献
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二极管侧面泵浦薄片激光器泵浦均匀性分析 总被引:6,自引:1,他引:6
建立了二极管侧面泵浦复合薄片激光介质Nd:YAG/YAG的数值模型:二极管阵列的快轴垂直于薄片激光介质表面的排布,二极管对称排列在增益介质的周围,从侧面进行泵浦,通过微柱透镜对二极管的快轴进行准直。模拟并实验研究了激光二极管慢轴方向的远场分布特性,结果发现在近距离时激光二极管慢轴方向上的远场分布近似为高斯分布。对于二极管参量,研究发现泵浦二极管越多,增益介质内泵浦光分布就越理想;增益介质吸收系数越小,泵浦的均匀性就越好,但总的吸收效率下降;二极管与工作物质的距离越近,工作物质靠近中心的区域对泵浦光的吸收就越多,但泵浦的均匀性就越差。选用增益介质为Nd:YAG/YAG的复合薄片介质,当掺杂原子分数以及增益介质的吸收系数不同时,发现0.6%掺杂的增益介质(吸收系数为0.24 cm-1)的泵浦均匀性比1%掺杂(吸收系数为0.51 mm-1))有明显改善,实验结果与模拟结果一致。 相似文献
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26W near diffraction limited Q-switched green laser based on a diode-end-pumped master oscillator power amplifier 下载免费PDF全文
An efficient acousto-optically Q-switched extracavity frequency-doubled 532nm laser based on a diode-end-pumped master oscillator power amplifier (MOPA) is demonstrated. With a type I non-critically phase-matched LBO, 26W of average power at 532nm in a near diffraction limited mode at a repetition rate of 30kHz was generated under 43W pump power of 1064nm Nd:YVO_{4} laser, which correspond to a frequency-doubling conversion efficiency of 60%. 相似文献
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Incoherent and coherent master oscillator/power stimulated Brillouin beam combination for amplifier system with scattering mirror 下载免费PDF全文
In this paper, we studied incoherent and coherent beam combining for the master oscillator/power amplifier (MOPA) system with stimulated Brillouin scattering (SBS) mirror. Optic field intensity distributions in the near and far field are numerically calculated for the two kinds of system. The results show that good beam quality in the far field could be obtained. It provides a theoretical basis for experimental research in the future. 相似文献
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Zhenwen Dai 《Journal of Quantitative Spectroscopy & Radiative Transfer》2006,101(2):226-236
A theoretical study for ultraviolet upconversion fiber master oscillator power amplifier (MOPA) based on the transition from the 4f5d state to the 3H4 ground state in Pr3+:ZBLAN fiber is performed by using steady population rate equations and propagation equations. The variation of the output power with the fiber length of master oscillator and MOPA and the launched pump powers, the dependence of the slope efficiency on the fiber length of master oscillator and MOPA, and the optimum fiber length of MOPA as a function of the launched pump powers, are calculated. Both the output power and the slope efficiency of MOPA are 2-3 times those of the simplex oscillator. It is found that the UV upconversion fiber MOPA system can effectively improve the output power and the slope efficiency of laser. 相似文献
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We have developed models to investigate the power properties of monolithic fiber laser with master oscillator multi-stage power amplifiers configuration. In the simulation the effect of optical characteristics of fiber fusion splice was considered, which was introduced by connecting fiber amplifiers. The theoretical modeling was established based on the classic theory of rate equations and the computational method was described in detail. On the basis of three high-power fiber lasers with different structures, we analyzed the splice loss and return loss, and how they influence the distribution of laser power in the system. The results showed that, on the present splicing level, both the enhancement of the pump capacity of fiber laser and the reduction of the quantity of power amplifier modules were effective strategies to accomplish fiber laser with tens of thousands of watts output. 相似文献
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主振功率放大型装置在高能激光器中有着广泛的应用, 在增益体积和沿光轴方向增益长度一定的情况下, 为了得到高能化学激光器主振部分和放大级部分的最佳比例, 研究了不同振荡放大比对输出光束的近场强度以及最终输出功率的影响. 使用快速傅里叶变换的算法经过迭代计算得到了1:4, 1:1, 2:1三种振荡放大比情况下的近场光束强度分布, 并计算了其强度分布均匀性及最终输出功率情况. 计算结果表明: 采用MOPA 结构的氟化氘化学激光器, 振荡放大比越大, 主振荡部分输出的能量越高, 谐振腔内功率密度越大, 对腔内镜片的承受能力要求越高; 而振荡放大比越小最终输出光束的衍射放大效应越明显, 对光束质量越不利. 在本文条件下, 计算结果还表明, 振荡放大比对功率会产生影响, 存在一个最佳的比例使得输出功率最大. 振荡放大比对输出功率的影响随主振部分输出耦合率, 光路中的各种损耗, 增益的规模等多种参数的不同而变化, 工程运用中可根据具体参数进行计算.
关键词:
主振功率放大
光学谐振腔
近场强度
光束质量 相似文献