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    Journals >Study On Optical Communications >Volume 51 >Issue 1 >Page 230183-01 > Article
    • Study On Optical Communications
    • Vol. 51, Issue 1, 230183-01 (2025)
    Research on Current Compensation Method for Wavelength Jumping in MG-Y Laser
    Di WANG1, Wei ZHUANG1,2,5,*, Xu ZHANG3, Le WANG2, and Wanquan LIU4
    Author Affiliations
  • 1Beijing Engineering Research Center for Optoelectronic Information and Instruments, Beijing University of Information Science and Technology, Beijing 100192, China
  • 2Laboratory of Fiber Optic Sensing and Systems, Beijing University of Information Science and Technology, Beijing 100016, China
  • 3Tianjin University, Tianjin 300072, China
  • 4Curtin University, Perth 6102, Australia
  • 5Guangzhou Nansha Institute of Photon Sensing Technology, Guangzhou 511462, China
    • show less
    DOI: 10.13756/j.gtxyj.2025.230183 Cite this Article
    Di WANG, Wei ZHUANG, Xu ZHANG, Le WANG, Wanquan LIU. Research on Current Compensation Method for Wavelength Jumping in MG-Y Laser[J]. Study On Optical Communications, 2025, 51(1): 230183-01 Copy Citation Text show less
    References

    [1] Chu Q L. The Error Analysis and Instrumented Research of Fiber Bragg Grating Wavelength Demodulation System based on Tunable Laser[D](2018).

    [2] Chen Q, Liu G, Lu Q et al. Optimization Algorithm based Characterization Scheme for Tunable Semiconductor Lasers[J]. Optics Express, 24, 20982-20992(2016).

    [3] Surkamp N, Gerling A, O'Gorman J et al. Continuous Wave THz System based on Dual Wavelength Monolithic Y-branch Laser Diode[C], 9203061(2020).

    [4] Liu J, Zhu L, He W et al. Fiber Grating Sensing Interrogation Systembased on a Modulated Grating Y-branch Tunable Laser for Core-and-cladding-integrated Fiber Bragg Grating Temperature Measurement[J]. Review of Scientific Instruments, 91, 014904(2020).

    [5] Ito M, Kimura T. Carrier Density Dependence of Refractive Index in AlGaAs Semiconductor Lasers[J]. IEEE Journal of Quantum Electronics, 16, 910-911(1980).

    [6] Chu G Y, Prat J. Ultrafast Wavelength Jumping and Wavelength Adjustment with Low Current Using Monolithically Integrated FML for Long-reach UDWDM-PON[J]. IEEE Photonics Journal, 8, 1505008(2016).

    [7] Ueno Y, Mochizuki K, Hasegawa K et al. Fast Wavelength Switching with DFB Lasers Utilizing Thermal Compensation[C], 7340258(2015).

    [8] Yoo S, Lee J K, Kim K. Suppression of Thermal Wavelength Drift in Widely Tunable DS-DBR Laser for Fast Channel-to-channel Switching[J]. Optics Express, 25, 30406-30417(2017).

    [9] Fujiwara N, Ishii H, Okamoto H et al. Suppression of Thermal Wavelength Drift in Super-structure Grating Distributed Bragg Reflector (SSG-DBR) Laser with Thermal Drift Compensator[J]. IEEE Journal of Selected Topics in Quantum Electronics, 13, 1164-1169(2007).

    [10] Lin Y. Study on Wavelength Monitoring and Control of Monolithic Tunable Semiconductor Lasers[D](2015).

    [11] Liu Q, Jing Z G, Li A et al. Quasi-continuous Tuning Characteristics of Modulated Grating Y-branch Lasers[J]. Chinese Journal of Lasers, 47, 263-271(2020).

    [12] Murakami A, Ohtsubo J, Liu Y. Stability Analysis of Semiconductor Laser with Phase-conjugate Feedback[J]. IEEE Journal of Quantum Electronics, 33, 1825-1831(1997).

    [13] Liu J, Zhu L Q, He W et al. Research on Optical Interrogation System based on MG-Y Tunable Diode Laser[J]. Chinese Journal of Scientific Instrument, 41, 87-96(2020).

    [15] Zhang S, Lu M, Mai J C et al. Research on Spectral Overlap Recognition of Cascaded Fiber Bragg Grating based on Optical Power Cutting Algorithm[J]. Automation & Information Engineering, 43, 7-11(2022).

    [16] Zhang Z J, Liu W Q, Zhang X et al. Quasi-continuous Tuning Method of MG-Y Laser based on KMeans[J]. Study on Optical Communications, 230026(2024).

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    Di WANG, Wei ZHUANG, Xu ZHANG, Le WANG, Wanquan LIU. Research on Current Compensation Method for Wavelength Jumping in MG-Y Laser[J]. Study On Optical Communications, 2025, 51(1): 230183-01
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