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超高斯光束在超短脉冲激光系统中的传输 被引量:4

Propagation of the super-Gaussian beam in Ti:sapphire CPA system
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摘要 为了增大光束的填充因子及提高放大器的能量转换效率,设计了一种新型的空间4程放大器, 该放大器包括四组由凹面镜组成的空间滤波器,它们构成一个全像传递系统。由于有实焦点,放大器置于真空 系统中。放大前,入射的高斯光束首先通过一个软边光阑和一个空间滤波器,被整形为高阶超高斯光束,然后 在放大器中进行放大和像传递。钛宝石晶体置于各空间滤波器的像面和物面上。实验表明,该放大器结构稳 定,可以保持良好的光束质量,远场焦斑达到近一倍衍射极限。 In order to improve the filled factor of beam and the conversion efficiency of amplifier, with reference to the technical integrated line of Shenguang-III, a kind of new spatial four-pass amplifier structure is designed, which is made up of four pairs of spatial filters, in the Ti:sapphire CPA system. The spatial structure amplifier is put in a vacuum because there are real focus points in the amplifier. Before amplification, the input Gauss beam firstly goes through a diaphragm and then a static spatial filter with a pinhole, the beam is refitted into a 4th order super-gaussian beam. Then, the image of super-gaussian beam is relayed to the first spatial filter of amplifier. The Ti:sapphire crystal is put at the surface of image or object of the spatial filters for the sake of the good quality of the beam. With this amplifier structure, the beam quality keeps well without spatial modulation, and the far field of the amplifier output is close to the diffraction limit.
作者 魏晓峰 吕志伟 黄小军 王晓东 袁晓东 周凯南 郭仪 曾小明 刘兰琴 王逍 林东晖 朱启华
机构地区 哈尔滨工业大学光电系 中国工程物理研究院激光聚变研究中心
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2005年第1期75-78,共4页 High Power Laser and Particle Beams
基金 中国工程物理研究院基金资助课题
关键词 钛宝石 啁啾脉冲放大 空间滤波器 像传递 光束近场 光束远场 Laser beams Light amplifiers Light transmission Numerical methods
分类号 TN248.1 [电子电信—物理电子学]
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参考文献5

  • 1黄小军,魏晓峰,彭翰生,王晓东,袁晓东,周凯南,郭仪,曾小明,林东晖,刘兰琴,张小民.20TW超短脉冲激光装置的研制[J].强激光与粒子束,2003,15(12):1191-1194. 被引量:9
  • 2Pennington D M,Perry M D.The petawatt laser system[R].UCRL-JC-124492,1997.
  • 3Pittman M, Ferre S. Design and characterization of a near-diffraction-limited femtosecond 100 TW 10 Hz high-intensity laser system[J].Appl Phys, 2002, B74:529-535.
  • 4Aoyama M, Yamakawa K, Akahane Y, et al. 0.85 PW, 33 fs Ti:sapphire laser[J]. Opt Lett, 2003, 28(17):1594-1596.
  • 5Koechner W. Solid-state laser engineering(4 Ed)[M]. Berlin: Springer, 1996. 146-148.

二级参考文献8

  • 1Henderson H. The Potential and Limitations of Neutrons, Electrons and X-rays for Atomic Resolution Microscopy of Unstained Biological Molecules[J], Quart Rev Biophys, 1995, 28 (2) : 171-193.
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  • 3Pennington D M, Perry M D. The Petawatt Laser System[R]. UCRL-JC-124492, 1997.
  • 4Pittman M, Ferre S. Design and characterization of a near-diffraction-limited femtosecond 100TW 10Hz high-intensity laser system[J], Appl Phys,2002, B74: 529-535.
  • 5Yamakawa K, Aoyama M, Matsuka S, et al. Ultrafast, ultrahigh-peak power Ti: Sapphire laser system[R]. JAERI-Research 2001-051.
  • 6Patterson F G, Bonlie J, Price D, et al. Suppression of parasitic lasing in large-aperture Ti : Sapphire laser amplifiers[J]. Opt Lett, 1999, 24:963-965.
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共引文献8

同被引文献38

引证文献4

二级引证文献29

强激光与粒子束
2005年 第1期

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