排序方式: 共有135条查询结果,搜索用时 315 毫秒
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激光辐照InSb(PV)型探测器的温升计算 总被引:14,自引:3,他引:11
用一维热传导模型计算得出了激光辐照下InSb(PV)型探测器p-n结处的温升变化。计算和讨论了胶层的热传导率、厚度对激光破坏阈值及热恢复时间的影响。指出选用大热导率的胶并使胶层尽可能薄是提高探测器抗激光性能的有效方法。 相似文献
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Using an external cavity with holographic grating, we demonstrate the spectral narrowing of a high power broad-area-diode with a single emitter. The spectral bandwidth of less than 15 GHz is obtained with output power exceeding 10 W and external cavity efficiency exceeding 60%. Absorption of 98% of the laser radiation by a 25-mm rubidium vapor cell filled with 600-torr ethane at a temperature of 368 K is acquired, which demonstrates the availability of this pump source for efficient rubidium laser pumping. 相似文献
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受激布里渊散射(SBS)系统中,具有一定带宽的抽运激光中会含有一定比例的Stokes散射光成分,此Stokes散射光成分经SBS介质后表面反射后,将形成种子光与抽运光联合入射,构成自种子光式SBS放大器.通过数值求解此SBS放大器型耦合波方程组,探讨了抽运光脉冲中所含Stokes散射光成分的比例、抽运激光波长、抽运光能量大小、入射的聚焦高斯光脉冲脉宽、相互作用时间等激光参数对SBS特征参数(Stokes散射光脉冲波形、材料内部最大应力的时间演化及空间分布、脉宽压缩效果、能量提取效率及Stokes散射光的共轭保真度)的影响.同时发现,SBS过程中产生的超声应力不仅会对SBS介质前表面造成破坏,还可能对焦点附近造成破坏;调整各激光参数还会使焦点附近优于前表面先破坏.数值模拟中采用的抽运光是聚焦高斯光束.
关键词:
受激布里渊散射
斯托克斯散射光
冲击应力
能量反射率 相似文献
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Different supercontinuum generation processes in photonic crystal fibers pumped with a 1064-nm picosecond pulse 下载免费PDF全文
Picosecond pulse pumped supercontinuum generation in photonic crystal fiber is investigated by performing a series of comparative experiments. The main purpose is to investigate the supercontinuum generation processes excited by a given pump source through the experimental study of some specific fibers. A 20-W all-fiber picosecond master oscillator-power amplifier (MOPA) laser is used to pump three different kinds of photonic crystal fibers for supercontinuum generation. Three diverse supercontinuum formation processes are observed to correspond to photonie crystal fibers with distinct dis- persion properties. The experimental results are consistent with the relevant theoretical results. Based on the above analyses, a watt-level broadband white light supercontinuum source spanning from 500 nm to beyond 1700 nm is demonstrated by using a picosecond fiber laser in combination with the matched photonic crystal fiber. The limitation of the group velocity matching curve of the photonic crystal fiber is also discussed in the paper. 相似文献