Q-switched microchip-lasers with intracavity Raman conversion

被引:0
|
作者
Voitikov, Sergei V. [1 ]
Demidovich, Aleksander A. [2 ]
Grabtchikov, Aleksander S. [1 ]
Burakevich, Vladimir N. [1 ]
Lisinetskii, Viktor A. [1 ]
Danailov, Miltcho B. [2 ]
Orlovich, Valentin A. [1 ]
机构
[1] Stepanov Inst Phys, Pr Nezavisimosti 68, Minsk 220072, BELARUS
[2] Laser Lab Sincrotrone Trieste, I-34012 Trieste, Italy
来源
INTERNATIONAL CONFERENCE ON LASERS, APPLICATIONS, AND TECHNOLOGIES 2007: ADVANCED LASERS AND SYSTEMS | 2007年 / 6731卷
关键词
microchip laser; Raman laser; intracavity Raman conversion; passive Q-switch; laser modeling;
D O I
10.1117/12.752926
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Semi-classical theory of Q-switched microchip - lasers with transient and quasi-stationary intracavity Raman conversion has been developed. Rate wave equations describing generation of Stokes pulses of different orders and their multiwave mixing have been written and discussed in detail. Theoretical results agree well with experiments for passively Q-switched microchip - lasers with intracavity Raman conversion in crystals of Ba(NO3)(2) and CaMoO4. It is shown, that intracavity Raman conversion in microchip - lasers represents a simple and effective method of generation of short Stokes pulses with duration as short as 100 ps, energy in the mu J-range and peak power of up to several tens of kW.
引用
收藏
页数:6
相关论文
共 50 条
  • [31] Optimization of Passively Q-switched Lasers by Taking into Account Intracavity Laser Spatial Distribution
    Dechun Li
    Shengzhi Zhao
    Guiqiu Li
    Kejian Yang
    Optical and Quantum Electronics, 2005, 37 : 927 - 942
  • [32] Optimization of passively Q-switched lasers by taking into account intracavity laser spatial distribution
    Li, DC
    Zhao, SZ
    Li, GQ
    Yang, KJ
    OPTICAL AND QUANTUM ELECTRONICS, 2005, 37 (10) : 927 - 942
  • [33] Passively Q-switched solid-state lasers with intracavity optical parametric oscillators
    Xiao, GH
    Bass, M
    Acharekar, M
    IEEE JOURNAL OF QUANTUM ELECTRONICS, 1998, 34 (11) : 2241 - 2245
  • [34] Diode-pumped passively Q-switched high-brightness microchip lasers
    Sakai, H
    Sone, A
    Kan, H
    Taira, T
    2005 PACIFIC RIM CONFERENCE ON LASERS AND ELECTRO-OPTICS, 2005, : 727 - 728
  • [35] Passively Q-Switched Thulium Microchip Laser
    Gaponenko, Maxim
    Kuleshov, Nikolay
    Suedmeyer, Thomas
    IEEE PHOTONICS TECHNOLOGY LETTERS, 2016, 28 (02) : 147 - 150
  • [36] Dispersion-free pulse duration reduction of passively Q-switched microchip lasers
    Lehneis, R.
    Steinmetz, A.
    Jauregui, C.
    Limpert, J.
    Tuennermann, A.
    OPTICS LETTERS, 2012, 37 (21) : 4401 - 4403
  • [37] The Q-switched Nd : YAG and Yb : YAG microchip lasers optimization and comparative analysis
    O.A. Buryy
    S.B. Ubiszkii
    S.S. Melnyk
    A.O. Matkovskii
    Applied Physics B, 2004, 78 : 291 - 297
  • [38] The Q-switched Nd:YAG and Yb:YAG microchip lasers optimization and comparative analysis
    Buryy, OA
    Ubiszkii, SB
    Melnyk, SS
    Matkovskii, AO
    APPLIED PHYSICS B-LASERS AND OPTICS, 2004, 78 (3-4): : 291 - 297
  • [39] Theoretical and experimental study on passively Q-switched intracavity frequency-doubled solid-state yellow Raman lasers
    Ding, Shuanghong
    Zhang, Wenhui
    Wang, Shiwu
    Wang, Xichang
    Zhang, Jun
    Wang, Meiqin
    APPLIED OPTICS, 2013, 52 (15) : 3583 - 3590
  • [40] Investigation of a highly compact intracavity actively Q-switched cascade diamond Raman laser
    Yang, Haolin
    Chen, Yue
    Ding, Kaili
    Jia, Fuqiang
    Li, Kang
    Copner, Nigel
    Davies, Antony
    APPLIED OPTICS, 2020, 59 (31) : 9715 - 9721
12345