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Acta Optica Sinica, Volume. 23, Issue 3, 335(2003)

Stable Second Harmonic Generation Using a Monolithic Ring Laser and an External Ring Cavity

[in Chinese]1、*, [in Chinese]1, [in Chinese]1, [in Chinese]1, [in Chinese]1, [in Chinese]2, [in Chinese]2, [in Chinese]2, and [in Chinese]2
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    [1] [1] Arie A, Byer R L. Laser heterodyne spectroscopy of 127I2 hyperfine structure near 532 nm. J. Opt. Soc. Am. (B), 1993, 10(11):1990~1997

    [2] [2] Hong Fenglei, Ishikawa J. Hyperfine structures of the R(122)35-0 and P(84)33-0 transitions of 127I2 near 532 nm. Opt. Commun., 2000, 183(1~4):101~108

    [3] [3] Arie A, Schiller S, Gustafson E K et al.. Absolute frequency stabilization of diode-laser-pumped Nd: YAG lasers to hyperfine transitions in molecular iodine. Opt. Lett., 1992, 17(17):1204~1206

    [4] [4] Arie A, Byer R L. Frequency stabilization of the 1064-nm Nd: YAG lasers to Doppler-broadened lines of iodine. Appl. Opt., 1993, 32(36):7382~7386

    [5] [5] Eickhoff M L, Hall J L. Optical frequency standard at 532 nm. IEEE Trans. Instrum. Meas., 1995, 44(2):155~158

    [6] [6] Hong Fenglei, Ishikawa J. A compact I2-Stabilized Nd: YAG laser. Jpn. J. Appl. Phys., 1997, 36(7A):196~198

    [7] [7] Hong Fenglei, Ishikawa J, Yoda J et al.. Frequency comparison of 127I2-stabilized Nd: YAG lasers. IEEE Trans. Instrum. Meas., 1999, 48(2):532~536

    [8] [8] Cordiale P, Galzerano G, Schnatz H. International comparison of two iodine-stabilized frequency-doubled Nd: YAG lasers at λ=532 nm. Metrologia, 2000, 37:177~182

    [9] [9] Kane T J, Byer R L, Zhou B K. Monolithic single-mode Nd: YAG ring laser. CLEO ′84, USA, Digest, WM3, 114~116 (1984)

    [10] [10] Kane T J, Byer R L. Monolithic unidirectional single-mode Nd: YAG ring laser. Opt. Lett., 1985, 10(2):65~67

    [11] [11] Paschotta P, Kurz P, Henking R et al.. 82% efficient continuous-wave frequency doubling of 1.06 μm with a monolithic MgO: LiNbO3 resonator. Opt. Lett., 1994, 19(17):1325~1327

    [12] [12] Schneider K, Schiller S, Mlynek J. 1.1-W single-frequency 532-nm radiation by second-harmonic generation of a miniature Nd: YAG ring laser. Opt. Lett., 1996, 21(24):1999~2001

    [14] [14] Hadjar Y, Ducos F, Acef O. Stable 120-mW green output tunable over 2 THz by a second-harmonic generation process in a KTP crystal at room temperature. Opt. Lett., 2000, 25(18):1367~1369

    [15] [15] Nilsson A C, Gustafson E K, Byer R L. Eigenpolarization theory of monolithic monolithic nonplanar ring oscillators. IEEE J. Quant. Electron., 1989, 25(4):767-790

    [16] [16] Boyd G D, Kleinman D A. Parametric interaction of focused Gaussian light beams. J. Appl. Phys., 1968, 39(8):3597~3639

    [17] [17] Byer R L. Parametric Oscillators and Nonlinear Materials. In: Harper P G, Wherrett B S Eds. Nonlinear Optics, San Francisco: Academic Press, 1997. 47~160,

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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Stable Second Harmonic Generation Using a Monolithic Ring Laser and an External Ring Cavity[J]. Acta Optica Sinica, 2003, 23(3): 335

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    Paper Information

    Category: Lasers and Laser Optics

    Received: Apr. 18, 2002

    Accepted: --

    Published Online: Jun. 27, 2006

    The Author Email: (ejzang@nim.ac.cn)

    DOI:

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology