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Journal Abstract Search

141 related items for PubMed ID: 30119415

  • 1. Investigation about the influence of longitudinal-mode structure of the laser on the relative intensity noise properties.
    Guo Y, Lu H, Xu M, Su J, Peng K.
    Opt Express; 2018 Aug 06; 26(16):21108-21118. PubMed ID: 30119415
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  • 4. Intensity noise suppression of a high-power single-frequency CW laser by controlling the stimulated emission rate.
    Guo Y, Lu H, Peng W, Su J, Peng K.
    Opt Lett; 2019 Dec 15; 44(24):6033-6036. PubMed ID: 32628212
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  • 5. Intensity noise manipulation of a single-frequency laser with high output power by intracavity nonlinear loss.
    Lu H, Guo Y, Peng K.
    Opt Lett; 2015 Nov 15; 40(22):5196-9. PubMed ID: 26565833
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  • 6. High-power stable continuous-wave single-longitudinal-mode Nd:YVO4 laser at 1342 nm.
    Ma Y, Li Y, Feng J, Zhang K.
    Opt Express; 2018 Jan 22; 26(2):1538-1546. PubMed ID: 29402027
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  • 10. Scheme for improving laser stability via feedback control of intracavity nonlinear loss.
    Jin P, Lu H, Su J, Peng K.
    Appl Opt; 2016 May 01; 55(13):3478-82. PubMed ID: 27140359
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  • 11. Continuous-wave single-frequency 532 nm laser source emitting 130 W into the fundamental transversal mode.
    Meier T, Willke B, Danzmann K.
    Opt Lett; 2010 Nov 15; 35(22):3742-4. PubMed ID: 21081982
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  • 12. Experimental investigation about influences of longitudinal-mode structure of pumping source on a Ti:sapphire laser.
    Lu H, Su J, Xie C, Peng K.
    Opt Express; 2011 Jan 17; 19(2):1344-53. PubMed ID: 21263675
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