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Semiconductor Optoelectronics, Volume. 46, Issue 1, 38(2025)

Simultaneous Generation of Optical Frequency Combs with Different Characteristics Based on Cascaded Dual Microcavities

REN Zhibin, LIU Xin, and KONG Mei
Author Affiliations
  • School of Physics, Changchun University of Science and Technology, Changchun 130022, CHN
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    [1] [1] Geng Y, Zhou H, Han X, et al. Coherent optical communications using coherence-cloned Kerr soliton microcombs[J]. Nature Communications, 2022, 13(1): 1070.

    [2] [2] Liang W, Eliyahu D, Ilchenko V S, et al. High spectral purity Kerr frequency comb radio frequency photonic oscillator[J]. Nature Communications, 2015, 6: 7957.

    [3] [3] Reimer C, Kues M, Roztocki P, et al. Generation of multiphoton entangled quantum states by means of integrated frequency combs[J]. Science, 2016, 351(6278): 1176-1180.

    [4] [4] Suh M G, Yang Q F, Yang K Y, et al. Microresonator soliton dual-comb spectroscopy[J]. Science, 2016, 354(6312): 600-603.

    [5] [5] Newman Z L, Maurice V, Drake T, et al. Architecture for the photonic integration of an optical atomic clock[J]. Optica, 2019, 6(5): 680.

    [6] [6] Torres-Company V, Weiner A M. Optical frequency comb technology for ultra-broadband radio-frequency photonics[J]. Laser & Photonics Reviews, 2014, 8(3): 368-393.

    [7] [7] Trocha P, Karpov M, Ganin D, et al. Ultrafast optical ranging using microresonator soliton frequency combs[J]. Science, 2018, 359(6378): 887-891.

    [8] [8] Kippenberg T J, Gaeta A L, Lipson M, et al. Dissipative Kerr solitons in optical microresonators[J]. Science, 2018, 361(6402): eaan8083.

    [9] [9] Kippenberg T J, Holzwarth R, Diddams S A. Microresonator-based optical frequency combs[J]. Science, 2011, 332(6029): 555-559.

    [10] [10] Herr T, Brasch V, Jost J D, et al. Temporal solitons in optical microresonators[J]. Nature Photonics, 2013, 8(2): 145-152.

    [11] [11] Matsko A B, Savchenkov A A, Ilchenko V S, et al. Hard and soft excitation regimes of Kerr frequency combs[J]. Physical Review A, 2012, 85: 023830.

    [12] [12] Xue X, Zheng X, Zhou B. Super-efficient temporal solitons in mutually coupled optical cavities[J]. Nature Photonics, 2019, 13(9): 616-622.

    [13] [13] Jang J K, Klenner A, Ji X, et al. Synchronization of coupled optical microresonators[J]. Nature Photonics, 2018, 12(11): 688-693.

    [14] [14] Coen S, Erkintalo M. Universal scaling laws of Kerr frequency combs[J]. Optics Letters, 2013, 38(11): 1790-1792.

    [15] [15] Lucas E G A. Physics of dissipative kerr solitons in optical microresonators and application to low-noise frequency synthesis[D]. Ecole Polytechnique Fdrale de Lausanne, 2019.

    [16] [16] Coen S, Haelterman M. Continuous-wave ultrahigh-repetition-rate pulse-train generation through modulational instability in a passive fiber cavity[J]. Optics Letters, 2001, 26(1): 39-41.

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    REN Zhibin, LIU Xin, KONG Mei. Simultaneous Generation of Optical Frequency Combs with Different Characteristics Based on Cascaded Dual Microcavities[J]. Semiconductor Optoelectronics, 2025, 46(1): 38

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    Paper Information

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    Received: Jan. 31, 2024

    Accepted: Sep. 18, 2025

    Published Online: Sep. 18, 2025

    The Author Email:

    DOI:10.16818/j.issn1001-5868.202401310

    Topics

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