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    Journals >Chinese Optics Letters >Volume 15 >Issue 12 >Page 122701 > Article
    • Chinese Optics Letters
    • Vol. 15, Issue 12, 122701 (2017)
    Low-pump sum frequency generation of frequency-stabilized 453 nm blue laser for photonic quantum interface
    Jian Wang1、2, Yuhao Pan1、2, Yunfeng Huang1、2、*, Chuanfeng Li1、2, and Guangcan Guo1、2
    Author Affiliations
  • 1CAS Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, China
  • 2Synergetic Innovation Centre in Quantum Information and Quantum Physics, University of Science and Technology of China, Hefei 230026, China
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    DOI: 10.3788/COL201715.122701 Cite this Article Set citation alerts
    Jian Wang, Yuhao Pan, Yunfeng Huang, Chuanfeng Li, Guangcan Guo. Low-pump sum frequency generation of frequency-stabilized 453 nm blue laser for photonic quantum interface[J]. Chinese Optics Letters, 2017, 15(12): 122701 Copy Citation Text show less
    (Color online) Experimental setup. BS, beam splitter; DM, dichroic mirror; IF, interference filter; A-lens, aspheric lens; PM, power meter; WG, waveguide. The red line represents the 880 nm laser, the gray line represents the 935 nm laser, and the blue line represents the 453 nm pump laser. DMs are used here to combine the 935 nm laser and the 880 nm laser together.
    Fig. 1. (Color online) Experimental setup. BS, beam splitter; DM, dichroic mirror; IF, interference filter; A-lens, aspheric lens; PM, power meter; WG, waveguide. The red line represents the 880 nm laser, the gray line represents the 935 nm laser, and the blue line represents the 453 nm pump laser. DMs are used here to combine the 935 nm laser and the 880 nm laser together.
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    Relation between the 453 nm laser output and the temperature of the PPLN waveguide.
    Fig. 2. Relation between the 453 nm laser output and the temperature of the PPLN waveguide.
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    Relation between the output power of the generated 453 nm laser with input power of the 935 nm laser. Here, the input power of the 880 nm laser is 12 mW, and the biggest power of the 935 nm laser is 48 mW.
    Fig. 3. Relation between the output power of the generated 453 nm laser with input power of the 935 nm laser. Here, the input power of the 880 nm laser is 12 mW, and the biggest power of the 935 nm laser is 48 mW.
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    Relation between the conversion efficiency and the input power of the 935 nm laser.
    Fig. 4. Relation between the conversion efficiency and the input power of the 935 nm laser.
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    Measurement of the long-term stability of the generated blue laser.
    Fig. 5. Measurement of the long-term stability of the generated blue laser.
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    Jian Wang, Yuhao Pan, Yunfeng Huang, Chuanfeng Li, Guangcan Guo. Low-pump sum frequency generation of frequency-stabilized 453 nm blue laser for photonic quantum interface[J]. Chinese Optics Letters, 2017, 15(12): 122701
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