Experimental research on gain characteristic in large aperture active mirror slab amplifiers

被引：0

作者：

Shanghai Key Laboratory of All Solid-State Laser and Applied Techniques, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China ^{[1
]}

不详 ^{[2
]}

机构：

[1] [1,Liu, Jing

[2] Shi, Xiangchun

[3] Li, Lei

[4] Cheng, Xiaojin

[5] Yang, Zhongguo

[6] Wang, Jianlei

来源：

Shi, X. (shixc@siom.ac.cn) | 2013年 / Science Press卷 / 40期

关键词：

Laser mirrors - Energy storage - Energy efficiency - Glass;

D O I：

10.3788/CJL201340.0402007

中图分类号：

学科分类号：

摘要：

The structure of large aperture active mirror slab amplifier is presented, which is pumped by Xe-lamps. The application of active mirror in Nd:glass laser amplifier is explored. The size of Nd:glass is 890 mm×450 mm×50 mm. Doping density is 1.2% of mass fraction. The small signal gain coefficient and energy storage efficiency of different voltages are measured at the best delay time. The energy storage efficiency is 1.94% and the small signal gain coefficient is 0.0371 cm-1 when the charging voltage is 22 kV and the Xe-lamp's discharging pulse width is 0.51 ms. Experiments are designed to research the effect of lateral amplified spontaneous emission (ASE) and luminous efficiency of Xe-lamp on the small signal gain coefficient.

引用

共 47 条

[31] Design and testing of a large-aperture, high-gain, Brewster's angle zigzag Nd:glass slab amplifier
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[36] Study on active support technology of ultra thin mirror with very large aperture - art. no. 67210J
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