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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[J]. Photonics Research, 2017, 5(4): 315 Copy Citation Text show less
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    [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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    J. M. Sarraute, K. Schires, S. LaRochelle, F. Grillot. Effects of gain nonlinearities in an optically injected gain lever semiconductor laser[J]. Photonics Research, 2017, 5(4): 315
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