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    Journals >Infrared and Laser Engineering >Volume 44 >Issue 3 >Page 964 > Article
    • Infrared and Laser Engineering
    • Vol. 44, Issue 3, 964 (2015)
    Spectral hole depth dependence on optical length in Tm3+:YAG within cryogenic temperature range
    Ma Xiurong1、2、* and Wang Xiayang1、2
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: Cite this Article
    Ma Xiurong, Wang Xiayang. Spectral hole depth dependence on optical length in Tm3+:YAG within cryogenic temperature range[J]. Infrared and Laser Engineering, 2015, 44(3): 964 Copy Citation Text show less
    References

    [1] Cole Z, Bottger T, Mohan R K, et al. Coherent integration of 0.5 GHz spectral holograms at 1536 nm using dynamic biphase codes[J]. Applied Physics Letters, 2002, 81(19): 3525-3527.

    [2] Gorju G, Crozatier V, Lorgeré I, et al. 10-GHz bandwidth RF spectral analyzer with MHz resolution based on spectral hole burning in Tm3+:YAG[J]. IEEE Photonics Technology Letters, 2005, 17(11): 2385-2387.

    [3] Schlottau F, Colice M, Wagner K H, et al. Spectral hole burning for wideband, high-resolution radio-frequency spectrum analysis[J]. Optics Letters, 2005, 30(22): 3003-3005.

    [4] Song Minqing, Hou Shanglin, Zhang Baoxia, et al. Investigation on slow light of photonic crystal fiber Bragg gratings[J]. Infrared and Laser Engineering, 2013, 42(6): 1547-1552. (in Chinese)

    [5] Lu Hui, Zhang Lijun, Zheng Zhanqi, et al. Time-delay and phase-delay methods for slow light measurement in photonic crystal waveguide[J]. Infrared and Laser Engineering, 2012, 41(2): 347-352. (in Chinese)

    [6] Qu Ronghui, Cai Haiwen. Narrow linewidth lasers with high stability[J]. Infrared and Laser Engineering, 2009, 38 (6): 1033-1038. (in Chinese)

    [7] Colice M, Schlottau F, Wagner K H. Broadband radio-frequency spectrum analysis in spectral-hole-burning media[J]. Applied Optics, 2006, 45(25): 6393-6408.

    [8] Ivan Lorgeré, Loic Menagér, Vinvent Lavielle, et al. Demonstration of a radio-frequency spectrum analyzer based on spectral hole burning[J]. Journal of Modern Optics,2002, 49: 2459-2475.

    [9] Lei C, Ma Xiurong, Wei W, et al. Characterization of spectral hole depth in Tm3+:YAG within the cryogenic temperature range[J]. Chinese Physics B, 2013, 22(6): 064213.

    [10] Colice M, Schlottau F, Wagner K, et al. RF spectrum analysis in spectral hole burning media[C]// Optical Science and Technology, the SPIE 49th Annual Meeting, International Society for Optics and Photonics, 2004: 132-139.

    [11] Schlottau F, Colice M, Wagner K H, et al. Spectral hole burning for wideband, high-resolution radio-frequency spectrum analysis[J]. Optics Letters, 2005, 30(22): 3003-3005.

    [12] Chang T, Tian M, Mohan R K, et al. Recovery of spectral features readout with frequency-chirped laser fields[J]. Optics Letters, 2005, 30(10): 1129-1131.

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    Ma Xiurong, Wang Xiayang. Spectral hole depth dependence on optical length in Tm3+:YAG within cryogenic temperature range[J]. Infrared and Laser Engineering, 2015, 44(3): 964
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