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    Journals >Laser & Optoelectronics Progress >Volume 47 >Issue 7 >Page 71403 > Article
    • Laser & Optoelectronics Progress
    • Vol. 47, Issue 7, 71403 (2010)
    Cryogenically Cooled High Average Power Yb:YAG Laser
    Wu Wuming*, Wu Huiyun, Xu Xiaojun, and Guo Shaofeng
    Author Affiliations
  • [in Chinese]
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    DOI: 10.3788/lop47.071403 Cite this Article Set citation alerts
    Wu Wuming, Wu Huiyun, Xu Xiaojun, Guo Shaofeng. Cryogenically Cooled High Average Power Yb:YAG Laser[J]. Laser & Optoelectronics Progress, 2010, 47(7): 71403 Copy Citation Text show less
    References

    [1] Tso Yee Fan,Daniel J. Ripin,L. Roshan et al.. Cryogenic Yb3+-doped solid-state lasers[J]. IEEE J. Sel. Top. Quantum Electron.,2007,13(3):448-459

    [2] Petras V. Avizonis,David J. Bossert,Mark S. Curtin. Physics of high performance Yb:YAG thin disk lasers[C]. Lasers and Electro-Optics/International Quantum Electronics Conference,OSA,2009. CThA2

    [3] W. Koechner. Solid-State-Laser Engineering[M]. 5th ed.,New York:Spring,1999. 84-87

    [4] David C. Brown. The promise of cryogenic solid-state lasers[J]. IEEE J. Sel. Top. Quantum Electron.,2005,11(3):587-599

    [5] D. S. Sumida,T. Y. Fan. Effect of radiation trapping on fluorescence lifetime and stimulated emission cross sectionmeasurements in solid-state laser media[J]. Opt. Lett.,1994,19(17):1343-1345

    [6] Laura D. DeLoach,Stephen A. Payne,L. L. Chase et al.. Evaluation of absorption and emission properties Yb3+ doped crystals for laser applications[J]. IEEE J. Quantuam Electron.,1993,29(4):1179-1191

    [7] Jun Dong,Michael Bass,Yanli Mao et al.. Dependence of the Yb3+ emission cross section and lifetime on temperature and concentration in yttrium aluminum garnet[J]. J. Opt. Soc. Am. B,2003,20(9):1975-1979

    [8] Yang Peizhi,Deng Peizhen,Yin Zhiwen. Concentration quenching in Yb:YAG crystal[J]. Chinese J. Luminescence,1999,20(4):325-329

    [9] Dan Rini,Bradley G Carman,Ben Saarloos. Low temperature spray cooling for cryogenic laser systems[C]. The Twenty-First Annual Solid State and Diode Technology Review,Albuquerque,New Mexico,2008. 470-475

    [10] D. J. Ripin,J. R. Ochoa,R. L. Aggarwal et al.. 165-W cryogenically cooled Yb:YAG laser[J]. Opt. Lett.,2004,29(18):2154-2156

    [11] D. J. Ripin,J. R. Ochoa,R. L. Aggarwal et al.. 300-W cryogenically cooled Yb:YAG laser[J]. IEEE J. Quantum Electron.,2005,41(10):1274-1277

    [12] Jason K. Brasseur,Akheelesh K. Abeeluck,Andrew R. Awtry et al.. 2.3 kW cryogenically cooled Yb:YAG laser[C]. Lasers and Electro-Optics/International Quantum Electronics Conference,OSA,2009. CThR1

    [13] S. Tokita,J. Kawanaka,M. Fujita et al.. Sapphire-conductive end-cooling of high power cryogenic Yb:YAG lasers[J]. Appl. Phys. B,2005,80(6):635-638

    [14] D. C. Brown,J. M. Singley,E. Yager et al.. Kilowatt class high-power CW Yb:YAG cryogenic laser[C]. SPIE,2008,6952:69520K

    [15] H. Furuse,T. Saiki,K. Imasaki et al.. Total-reflection active-mirror laser with directly liquid-nitrogen-cooled[C]. Lasers and Electro-Optics/International Quantum Electronics Conference,OSA,2009. CThR2

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    Wu Wuming, Wu Huiyun, Xu Xiaojun, Guo Shaofeng. Cryogenically Cooled High Average Power Yb:YAG Laser[J]. Laser & Optoelectronics Progress, 2010, 47(7): 71403
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