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The generation and measurement of complex ultraviolet laser pulse shapes is demonstrated in the SG-III laser facility. Relatively high contrast ratio of 300∶1 required by the physics experiment is achieved and successfully measured. Two continuous main shots validate the reproduction and the stability of the pulse shape, which provide solid foundation for precise physics experiment and laser power balance. 相似文献
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We propose that domain inversion can be directly induced by femtosecond laser both theoretically and experimentally, which opens a path to achieve three-dimensional (3D) nonlinear crystal with a period in sub-micron-scale. A simulation of domain inversion is modeled by considering the temporal distribution of femtosecond pulses. The calculation results clarify that the domain inversions can happen within or after the interaction with the laser pulse, and the response time of domain inversion is in the picosecond level depending on the intensity and the materials. The domain reversal windows of lithium niobate by femtosecond laser are observed which agrees with theoretical predictions qualitatively. 相似文献
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在直接驱动中, 由于靶丸在内爆过程中不断压缩变小, 激光束的初始焦斑与压缩后的靶丸不再匹配, 导致能量从靶丸边缘流失. 光学动态聚焦是指在靶丸压缩变小的过程中, 动态减小辐照焦斑的尺寸, 这对提高光束与靶丸的耦合效率有着非常重要的意义. 靶丸压缩后期小焦斑的实现条件是解决光学动态聚焦的首要问题. 根据光的全频段传输规律, 本文采用构造低频和中高频波前畸变源的方法, 在不同目标焦斑的束匀滑条件下, 分别给出了小焦斑尺寸与低频波前、中高频波前的定标关系, 作为小焦斑实现方式的波前判据. 根据波前判据即可找出要实现不同的小焦斑需对低频和中高频波前畸变矫正控制的范围.
关键词:
直接驱动
光学动态聚焦
波前畸变
焦斑尺寸 相似文献
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Self-focusing effect via Kerr nonlinearity is observed in periodically poled lithium niobate (PPLN) waveguide arrays formed by electro-optic effect. Voltage-control method is demonstrated to control the focusing and diffraction of light. Theoretical simulation results show good agreement with experimental results. 相似文献
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高功率固体激光装置对大口径反射镜附加波前畸变和姿态稳定提出了苛刻的要求,在确保姿态稳定性的同时,要求低应力夹持使附加波前畸变峰谷值(PV值)<λ/3, 波长λ=633 nm。提出了一种正面三点支撑结合侧面八点限位的大口径反射镜夹持技术,对该夹持结构下引起的附加波前畸变进行了仿真和实验研究,并对反射镜姿态稳定性进行了不同工况下的实验模拟。结果表明,该夹持方式引入的附加波前畸变PV值约为23.6 nm,振动、晃动、翻转不同工况下反射镜指向变化PV值小于50 μrad,附加波前畸变和姿态稳定性均满足高功率激光装置的要求。 相似文献
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在惯性约束聚变(ICF)领域,为了满足物理实验需求,需要采用短波长的紫外激光打靶。目前,国内外高功率固体激光装置普遍采用谐波转换的方式来获得三倍频紫外激光。高效的频率转换必须满足相位匹配条件,而晶体的反射面形畸变过大对准直精度和倍频效率均匀性都会产生不利影响。通过实验验证了晶体准直光斑的质量退化主要来源于晶体因夹持和重力导致的反射面形畸变,证明了改进晶体的夹持方式可以有效改善晶体面形,提高准直精度和准直光斑质量,并显著提升三倍频转换效率。 相似文献