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    Journals >Acta Optica Sinica >Volume 26 >Issue 5 >Page 693 > Article
    • Acta Optica Sinica
    • Vol. 26, Issue 5, 693 (2006)
    Output Properties of External Resonator SrWO4 Raman Laser
    [in Chinese]*, [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], and [in Chinese]
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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Output Properties of External Resonator SrWO4 Raman Laser[J]. Acta Optica Sinica, 2006, 26(5): 693 Copy Citation Text show less
    References

    [1] James H. Newton, G. M. Schindler. Numerical model of multiple-Raman-shifting excimer lasers to the blue-green in H2[J]. Opt. Lett., 1981, 6(3): 125~127

    [2] D. Von der Linder, M. Maier, W. Kaiser. Quantitative investigations of the stimulated Raman effect using subnansecond light pulses[J]. Phys. Rev., 1969, 178(1): 11~17

    [6] H. M. Pask. The design and operation of solid-state Raman lasers[J]. Pro. Quant. Electron., 2003, 27(1): 3~56

    [7] Pavel Cerny, Helena Jelinkova, Peter G. Zverev et al.. Solid state lasers with Raman frequency conversion[J]. Pro. Quant. Electron., 2004, 28(2): 113~143

    [8] Joshua Simons, Helen Pask, Peter Dekker et al.. Small-scale, all-solid-state, frequency-doubled intracavity Raman laser producing 5 mW yellow-orange output at 598 nm[J]. Opt. Commun., 2004, 229(1~6): 305~310

    [9] H. M. Pask, J. A. Piper. Diode-pumped LiIO3 intracavity Raman lasers[J]. IEEE J. Quant. Electron., 2000, 36(8): 949~955

    [10] M. Matsuse, T. Deguchi, H. Ohtsuka et al.. Effect of laser pulsewidth on the generation of multi-color laser emission by stimulated Raman scattering and four-wave Raman mixing in a KGd(WO4)2 crystal[J]. Opt. Commun., 2003, 223(4~6): 411~416

    [11] Julian Findeisen, Hans J. Eichler, A. A. Kaminskii. Efficient picosecond PbWO4 and two-wavelength KGd(WO4)2 Raman lasers in the IR and visible[J]. IEEE J. Quant. Electron., 1999, 35(2): 173~178

    [12] T. T. Basiev,A. A. Sobol, Yu K. Voronbo et al.. Spontaneous Raman spectroscopy of tungstate and molybdate crystals for Raman lasers[J]. Opt. Mater., 2000, 15(3): 205~216

    [13] L. I. Ivleva, T. T. Basiev, I. S. Voronina et al.. SrWO4∶Nd3+-new material for multifunctional lasers[J]. Opt. Mater., 2003, 23(1~2): 439~442

    [14] H. Jelinkova, J. Sulc, T. T. Basiev et al.. Stimulated Raman scattering in Nd∶SrWO4[J]. Laser Phys. Lett., 2005, 2(1): 4~11

    [15] Alain Brenier, Guohua Jia, Chaoyang Tu. Raman lasers at 1.171 and 1.517 μm with self-frequency conversion in SrWO4∶Nd3+ crystal[J]. J. Phys.: Condens. Matter., 2004, 16(49): 9103~9108

    [16] H. M. Pask, S. Myers, J. A. Piper et al.. High average power, all-solid-state external resonator Raman laser[J]. Opt. Lett., 2003, 28(6): 435~437

    [17] R. P. Mildren, M. Convey, H. M. Pask et al.. Efficient, all-solid-state, Raman laser in the yellow, orange and red[J]. Opt. Express, 2004, 12(5): 785~790

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    [5] Xi Kun, Ding Shuanghong, Zhang Jun, Wang Shumei, Liu Yongna, Wang Meiqin. External Resonator PbWO4 Raman Laser Excited by 1064 nm Nanosecond Laser Pulses[J]. Acta Optica Sinica, 2012, 32(9): 914003

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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Output Properties of External Resonator SrWO4 Raman Laser[J]. Acta Optica Sinica, 2006, 26(5): 693
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