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[1]. T. Hao, Q. Cen, Y. Dai, J. Tang, W. Li, J. Yao, N. Zhu and M. Li*, “Breaking the limitation of mode building time in an optoelectronic oscillator,” Nature Communications, Nature Communications, vol. 9, paper number 1839, May 2018.
[2]. Y. Liu, T. Hao, Wei Li, J. Capmany, N. Zhu* and M. Li*, “Observation of Parity–Time Symmetry in Microwave Photonics”, Light: Science & Applications, in press, 2018.
[3]. W. Liu#, M. Li#, R. S. Guzzon#, E. J. Norberg, J. S. Parker, M. Lu, L. A. Coldren, and J. Yao, “An integrated parity-time symmetric wavelength-tunable single-mode microring laser,” Nature Communications, vol. 8, pp. 15389, 2017. (共同一作)
[4]. W. Liu#, M. Li#, R. S. Guzzon#, E. J. Norberg, J. S. Parker, M. Lu, L. A. Coldren, and J. P. Yao, "A fully reconfigurable photonic integrated signal processor," Nature Photonics, vol. 10, no. 3, pp. 190-195, 2016 (#Equal Contribution)
[5]. M. Burla, X. Wang, M. Li , L. Chrostowski, J. Azana, "Wideband dynamic microwave frequency identification system using a low-power, ultra-compact silicon photonic chip," Nature Communications, vol. 7, pp. 13004, 2016
[6]. R. Maram, J. Howe, M. Li, and J. Azaña, "Noiseless intensity amplification of repetitive signals by coherent addition using the temporal Talbot effect," Nature Communications, vol. 5, no. 5163, 2014.
[7]. T. Hao, J. Tang, D. Domenech, W. Li, N. Zhu, J. Capmany and M. Li*, “Towards monolithic integration of OEOs: From systems to chips,” IEEE Journal of Lightwave Technology, in press, 2018. (Invited Review Article)
[8]. N. Zhu*; Z. Shi; Z. Zhang; Y. Zhang; C. Zou; Z. Zhao; Y. Liu; W. Li and M. Li, "Directly Modulated Semiconductor Lasers," IEEE Journal of Selected Topics in Quantum Electronics, Vol. 24, No. 1, pp. 1-19, 2018. (Invited Review Article)
[9]. J. Hervás, A. L. Ricchiuti, W. Li, N. H. Zhu, C. R. Fernández-Pousa, S. Sales, M. Li*, and J. Capmany, “Microwave photonics for optical sensors,” IEEE Journal of Selected Topics in Quantum Electronics, vol. 23, no. 2, pp. 5602013, 2017. (Invited Review Article)
[10]. W. Li, M. Li, N. Zhu “Photonic generation of background-free millimeter-wave ultra-wideband signals,” Chinese Optics Letters, 2016. (Invited Review Article)
[11]. N. Zhu, M. Li, Y. Hao, “Optoelectronic devices and integration technologies,” Scientia Sinica Informationis, vol. 46, no. 8, pp. 1156-1174, 2016. (Invited Review Article)
[12]. M. Li, N. Zhu, “Recent advances in microwave photonics,” Frontiers of Optoelectronics, vol. 9, no. 2, pp. 160-185, June 2016. (Invited Review Article)
[13]. M. Li and N. H. Zhu, "Microwave photonics in China," IEEE Photonics Society Newsletter, Feb. 2016. (Invited Review Article)
[14]. M. Li, X. Chen, Y. Su, X. Wang, M. Chen, D. Dai, J. Liu, and N. H. Zhu, "Photonic Integration Circuits in China," IEEE Journal of Quantum Electronics, 2015, Accepted for Publication, DOI: 10.1109/JQE.2015.2504087. (Invited Review Article)
[15]. M. Li*, W. Liu, N. Huang, R. S. Guzzon, N. Zhu, J. Azaña, L. A. Coldren and J. Yao, "Advances in all-optical circuits," Optics & Photonics News, Mar. 2015. (Invited Article)
[16]. M. Li*, J. Azana, N. H. Zhu, and J. P. Yao, "Recent progresses on optical arbitrary waveform generation," Frontiers of Optoelectronics, vol. 7, no. 3, pp. 359-375, 2014. (Invited Review Article)
[17]. M. Burla, L. R. Cortés, M. Li, X. Wang, L. Chrostowski, and J. Azaña, "Integrated waveguide Bragg gratings for microwave photonics signal processing," Opt. Express, vol. 21, pp. 25120-25147, 2013. (Invited Review Article, Top Download in October 2013)
[18]. H. Li, M. Li, Y. Sheng, and J. E. Rothenberg, “Advances in the design and fabrication of high channel-count fiber Bragg gratings,” IEEE J. Lightw. Technol., Vol. 25, No. 9, pp. 2739-2749,2007. (Invited Tutorials)