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    Journals >Infrared and Laser Engineering >Volume 50 >Issue 7 >Page 20211042 > Article
    • Infrared and Laser Engineering
    • Vol. 50, Issue 7, 20211042 (2021)
    Prospects of cross research between microwave photonics and multidiscipline (Invited)
    Ming Li1、2、3, Tengfei Hao1、2、3, and Wei Li1、2、3
    Author Affiliations
  • 1State Key Laboratory on Integrated Optoelectronics, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China
  • 2School of Electronic, Electrical and Communication Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
  • 3Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
    • show less
    DOI: 10.3788/IRLA20211042 Cite this Article
    Ming Li, Tengfei Hao, Wei Li. Prospects of cross research between microwave photonics and multidiscipline (Invited)[J]. Infrared and Laser Engineering, 2021, 50(7): 20211042 Copy Citation Text show less
    References

    [1] J Yao. Microwave photonics. J Lightwave Technol, 27, 314-335(2009).

    [2] J Capmany, D Novak. Microwave photonics combines two worlds. Nature Photon, 1, 319-330(2007).

    [3] T Hao, Q Cen, Y Dai, et al. Breaking the limitation of mode building time in an optoelectronic oscillator. Nature Commun, 9, 1839(2018).

    [4] R Huber, M Wojtkowski, J G Fujimoto. Fourier domain mode locking (FDML): a new laser operating regime and applications for optical coherence tomography. Opt Express, 14, 3225-3237(2006).

    [5] Y Liu, T Hao, W Li, et al. Observation of parity-time symmetry in microwave photonics. Light Sci Appl, 7, 38(2018).

    [6] T Hao, Q Cen, S Guan, et al. Optoelectronic parametric oscillator. Light Sci Appl, 9, 102(2020).

    [7] Z Ge, T Hao, J Capmany, et al. Broadband random optoelectronic oscillator. Nat Commun, 11, 5724(2020).

    [8] D Marpaung, J Yao, J Capmany. Integrated microwave photonics. Nature Photon, 13, 80-90(2019).

    [9] B Shen, L Chang, J. Liu et al. Integrated turnkey soliton microcombs. Nature, 582, 365-369(2020).

    [10] S Li, Z Cui, X Ye, et al. Chip-based microwave-photonic radar for high-resolution imaging. Laser & Photonics Reviews, 14, 1900239(2020).

    [11] Zhang W, Yao J. A silicon photonic integrated frequencytunable microwave photonic bpass filter[C]2017 International Topical Meeting on Microwave Photonics, 2017.

    [12] J Tang, T Hao, W Li, et al. Integrated optoelectronic oscillator. Optics Express, 26, 12257-12265(2018).

    [13] T Hao, J Tang, D David, et al. Toward monolithic integration of OEOs: From systems to chips. J Lightw Technol, 36, 4565-4582(2018).

    [14] S Liu, A Khope. Latest advances in high-performance light sources and optical amplifiers on silicon. J Semicond, 42, 041307(2021).

    [15] X Guo, A He, Y Su. Recent advances of heterogeneously integrated III–V laser on Si. J Semicond, 40, 101304(2019).

    [16] Yang Y, Jin Y, Xiang X, et al. Quantum microwave photonics[J]. arXiv, 2020: 2101.04078.

    [17] S Xu, X Zou, B Ma, et al. Deep-learning-powered photonic analog-to-digital conversion. Light Sci Appl, 8, 66(2019).

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    Ming Li, Tengfei Hao, Wei Li. Prospects of cross research between microwave photonics and multidiscipline (Invited)[J]. Infrared and Laser Engineering, 2021, 50(7): 20211042
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