飞秒激光脉冲的腔外压缩  被引量:3

Femtosecond pulse compression in external cavity

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作  者:刘文军[1] 李华军[1] 曲士良[1] 陈相君[1] 

机构地区:[1]哈尔滨工业大学光电科学系(威海),威海264209

出  处:《激光技术》2007年第6期665-667,670,共4页Laser Technology

摘  要:为了获得更高的时间分辨率,更短的飞秒脉冲,采用双棱镜和一个平面镜结构对飞秒激光脉冲进行腔外压缩,构建了一台二次谐波频率分辨光学开关装置,对谐振腔输出的飞秒脉冲及压缩后的脉冲进行了测量,取得了脉冲压缩前和压缩后的实验数据,压缩前脉冲的宽度为89 fs,脉冲的时间带宽积为0.9096,误差为2.4‰,输入脉冲的平均功率约为480mW;脉冲压缩后的测量结果为22 fs,光谱宽度为43nm,时间带宽积为0.44203,误差为1.1‰,压缩脉冲的平均功率约为250mW。压缩比为4∶1,高于有关文献的报道。结果表明,该装置实现了飞秒脉冲腔外压缩,对获得更短的飞秒脉冲是有帮助的。In order to get shorter pulse width to improve time resolution, femtosecond pulse was compressed by using two prisms and a reflective mirror. Femtosecond pulse was measured with a home-made second-harmonic generation frequency-resolved optical gating. The temporal width of input pulse was 89fs, the time-bandwidth product was 0. 9096, the minimum error was 2.4‰ and the average power of the input light was about 480mW. The width of compressed pulse was 22fs, the time-bandwidth product was 0. 44203, the minimum error was 1.1‰and the average power of the output light was about 250mW. The compression ratio was 4:1 ,which was higher than that in the related report. The experimental results indicate that the compressing device is valid and the result is useful for getting shorter pulses.

关 键 词:超快光学 脉冲压缩 脉冲测量 频率分辨光学开关法 

分 类 号:TN241[电子电信—物理电子学]

 

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