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    Journals >Photonics Research >Volume 5 >Issue 4 >Page 315 > Article
    • Photonics Research
    • Vol. 5, Issue 4, 315 (2017)
    Effects of gain nonlinearities in an optically injected gain lever semiconductor laser | On the Cover
    J. M. Sarraute1,2,*, K. Schires1, S. LaRochelle2, and F. Grillot1,3
    Author Affiliations
  • 1LTCI, Télécom Paristech, Université Paris-Saclay, 46 rue Barrault, 75013 Paris, France
  • 2COPL, Université Laval, 2375 rue de la Terrasse, Québec, Québec G1V 06A, Canada
  • 3Center for High Technology Materials, University of New Mexico, 1313 Goddard SE, Albuquerque, New Mexico 87106-4343, USA
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    DOI: 10.1364/PRJ.5.000315 Cite this Article Set citation alerts
    J. M. Sarraute, K. Schires, S. LaRochelle, F. Grillot, "Effects of gain nonlinearities in an optically injected gain lever semiconductor laser," Photonics Res. 5, 315 (2017) Copy Citation Text show less
    References

    [1] . Cisco Global Cloud Index: Forecast and Methodology, 2014–2019 White Paper.

    [2] T. Yamamoto. High-speed directly modulated lasers. Optical Fiber Communication Conference (OFC), OTh3F.5(2012).

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    [4] . 100  G Coherent solutions—features and applications.

    [5] K. Nakahara, Y. Wakayama, T. Kitatani, T. Taniguchi, T. Fukamachi, Y. Sakuma, S. Tanaka. Direct modulation at 56 and 50  Gb/s of 1.3-μm InGaAlAs ridge-shaped-BH DFB lasers. IEEE Photon. Technol. Lett., 27, 534-536(2015).

    [6] T. Tadokoro, W. Kobayashi, T. Fujisawa, T. Yamanaka, F. Kano. 43  Gb/s 1.3  μm DFB laser for 40  km transmission. J. Lightwave Technol., 30, 2520-2524(2012).

    [7] T. B. Simpson, J. Liu, A. Gavrielides. Bandwidth enhancement and broadband noise reduction in injection-locked semiconductor lasers. IEEE Photon. Technol. Lett., 7, 709-711(1995).

    [8] A. Murakami, K. Kawashima, K. Atsuki. Cavity resonance shift and bandwidth enhancement in semiconductor lasers with strong light injection. IEEE J. Quantum Electron., 39, 1196-1204(2003).

    [9] S. Wieczorek, W. W. Chow, L. Chrostowski, C. J. Chang-Hasnain. Improved semiconductor-laser dynamics from induced population pulsation. IEEE J. Quantum Electron., 42, 552-562(2006).

    [10] K. Vahala, M. A. Newkirk, T. Chen. The optical gain lever: a novel gain mechanism in the direct modulation of quantum well semiconductor lasers. Appl. Phys. Lett., 54, 2506-2508(1989).

    [11] J.-M. Sarraute, K. Schires, S. LaRochelle, F. Grillot. Enhancement of the modulation dynamics of an optically injection-locked semiconductor laser using gain lever. IEEE J. Sel. Top. Quantum Electron., 21, 1801408(2015).

    [12] M. Pochet, N. G. Usechak, J. Schmidt, L. F. Lester. Modulation response of a long-cavity, gain-levered quantum-dot semiconductor laser. Opt. Express, 22, 1726-1734(2014).

    [13] L. Coldren, S. Corzine. Diode Lasers and Photonic Integrated Circuits(1995).

    [14] Y. Li, N. Naderi, V. Kovanis, L. Lester. Enhancing the 3-dB bandwidth via the gain-lever effect in quantum-dot lasers. IEEE Photon. J., 2, 321-329(2010).

    [15] E. Kapon. Semiconductor Lasers I: Fundamentals, Optics and Photonics(1993).

    [16] M. T. Crowley, N. A. Naderi, H. Su, F. Grillot, L. F. Lester, A. Bryce. GaAs-based quantum dot lasers. Semicond. Semimet., 86, 371-417(2012).

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    [1] Nianqiang Li, H. Susanto, B. R. Cemlyn, I. D. Henning, M. J. Adams, "Modulation properties of solitary and optically injected phased-array semiconductor lasers," Photonics Res. 6, 908 (2018)

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    J. M. Sarraute, K. Schires, S. LaRochelle, F. Grillot, "Effects of gain nonlinearities in an optically injected gain lever semiconductor laser," Photonics Res. 5, 315 (2017)
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