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    Journals >Chinese Optics Letters >Volume 13 >Issue 11 >Page 111405 > Article
    • Chinese Optics Letters
    • Vol. 13, Issue 11, 111405 (2015)
    Frequency difference lock-in phenomenon’s weakening by transverse magnetic field in Y-shaped cavity dual-frequency laser
    Guangzong Xiao*, Bin Zhang, Zhiguo Wang, Yangying Fu, and Mengfan Gong
    Author Affiliations
  • College of Optoelectronic Science and Engineering, National University of Defense Technology, Changsha 410073, China
    • show less
    DOI: 10.3788/COL201513.111405 Cite this Article Set citation alerts
    Guangzong Xiao, Bin Zhang, Zhiguo Wang, Yangying Fu, Mengfan Gong. Frequency difference lock-in phenomenon’s weakening by transverse magnetic field in Y-shaped cavity dual-frequency laser[J]. Chinese Optics Letters, 2015, 13(11): 111405 Copy Citation Text show less
    Experiment setup of weakening frequency difference lock-in phenomenon in a Y-shaped cavity dual-frequency laser. PZT1, PZT2: piezoelectric transducer; P: polarization plate; D: photoelectric detector; SA: spectrum analyzer; HC: Helmholtz coil pair; HCPS: power supply for Helmholtz coil pair; PZTPS: power supply for PZT.
    Fig. 1. Experiment setup of weakening frequency difference lock-in phenomenon in a Y-shaped cavity dual-frequency laser. PZT1, PZT2: piezoelectric transducer; P: polarization plate; D: photoelectric detector; SA: spectrum analyzer; HC: Helmholtz coil pair; HCPS: power supply for Helmholtz coil pair; PZTPS: power supply for PZT.
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    Configuration of the cube coil pair.
    Fig. 2. Configuration of the cube coil pair.
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    Magnetic field intensity distribution along the y axis in the plane zoy, for a different current I.
    Fig. 3. Magnetic field intensity distribution along the y axis in the plane zoy, for a different current I.
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    Distribution of longitudinal modes along the frequency axis. Dashed lines represent P-light; solid lines represent S-light; arrows indicate the directions along which the longitudinal modes move while the voltage applied to PZT2 is increasing.
    Fig. 4. Distribution of longitudinal modes along the frequency axis. Dashed lines represent P-light; solid lines represent S-light; arrows indicate the directions along which the longitudinal modes move while the voltage applied to PZT2 is increasing.
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    Minimal frequency difference varying with different magnetic field intensity. Δ: experimental data.
    Fig. 5. Minimal frequency difference varying with different magnetic field intensity. Δ: experimental data.
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    Frequency differences tuning with the voltage applied on PZT2 when the magnetic field intensity is about 9 mT.
    Fig. 6. Frequency differences tuning with the voltage applied on PZT2 when the magnetic field intensity is about 9 mT.
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    Guangzong Xiao, Bin Zhang, Zhiguo Wang, Yangying Fu, Mengfan Gong. Frequency difference lock-in phenomenon’s weakening by transverse magnetic field in Y-shaped cavity dual-frequency laser[J]. Chinese Optics Letters, 2015, 13(11): 111405
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    Paper Information
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