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Chinese Optics Letters, Volume. 22, Issue 2, 023901(2024)

Programmable photonic RF filters based on an integrated Fabry–Pérot laser with a saturable absorber

Zhenzhen Xu, Yitong Liu, Jiahui Liu, Ling Wang, Wentao Sun, Zhenxing Sun**, and Xiangfei Chen*
Author Affiliations
  • Key Laboratory of Intelligent Optical Sensing and Manipulation of the Ministry of Education & National Laboratory of Solid State Microstructures & College of Engineering and Applied Sciences & Institute of Optical Communication Engineering & Nanjing University-Tongding Joint Lab for Large-Scale Photonic Integrated Circuits, Nanjing University, Nanjing 210023, China
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    (a) Microscopic image of the fabricated FP-SA chip and (b) the box packaged FP-SA laser.

    Fig. 1. (a) Microscopic image of the fabricated FP-SA chip and (b) the box packaged FP-SA laser.

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    (a) Power-current curves under different reverse voltages of the SA region. (b) Optical spectrum under the injection current of the gain region and the reverse voltage of the SA region of 140 mA and 0 V, respectively. (c) Optical spectrum under the injection current of the gain region and the reverse voltage of the SA region of 140 mA and −2.4 V, respectively.

    Fig. 2. (a) Power-current curves under different reverse voltages of the SA region. (b) Optical spectrum under the injection current of the gain region and the reverse voltage of the SA region of 140 mA and 0 V, respectively. (c) Optical spectrum under the injection current of the gain region and the reverse voltage of the SA region of 140 mA and −2.4 V, respectively.

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    Experimental setup of the photonic RF filter. EDFA, erbium-doped fiber amplifier; PC, polarization controller; MZM, Mach-Zehnder modulator; SMF, single-mode fiber; PD, photodetector; VNA, vector network analyzer.

    Fig. 3. Experimental setup of the photonic RF filter. EDFA, erbium-doped fiber amplifier; PC, polarization controller; MZM, Mach-Zehnder modulator; SMF, single-mode fiber; PD, photodetector; VNA, vector network analyzer.

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    Optical spectra of the shaped FA-SA laser corresponding to the tap weights of a sinc filter with different tap numbers.

    Fig. 4. Optical spectra of the shaped FA-SA laser corresponding to the tap weights of a sinc filter with different tap numbers.

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    Measured RF transmission spectra of the sinc filter with different tap numbers.

    Fig. 5. Measured RF transmission spectra of the sinc filter with different tap numbers.

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    Optical spectra of the Gaussian-apodized sinc filter (σ, Gaussian factor).

    Fig. 6. Optical spectra of the Gaussian-apodized sinc filter (σ, Gaussian factor).

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    Measured RF transmission spectra of the Gaussian-apodized sinc filter.

    Fig. 7. Measured RF transmission spectra of the Gaussian-apodized sinc filter.

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    Measured RF transmission spectra of the center frequency-tunable Gaussian-apodized sinc filter.

    Fig. 8. Measured RF transmission spectra of the center frequency-tunable Gaussian-apodized sinc filter.

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    Zhenzhen Xu, Yitong Liu, Jiahui Liu, Ling Wang, Wentao Sun, Zhenxing Sun, Xiangfei Chen, "Programmable photonic RF filters based on an integrated Fabry–Pérot laser with a saturable absorber," Chin. Opt. Lett. 22, 023901 (2024)

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    Paper Information

    Category: Microwave Photonics

    Received: Sep. 4, 2023

    Accepted: Sep. 26, 2023

    Published Online: Feb. 23, 2024

    The Author Email: Zhenxing Sun (sunzhenxing@smail.nju.edu.cn), Xiangfei Chen (chenxf@nju.edu.cn)

    DOI:10.3788/COL202422.023901

    CSTR:32184.14.COL202422.023901

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology