Abstract:
Time-domain solutions to a detailed carrier injection model for multiple-quantum-well lasers under large signal current step injection is presented. The calculations yiel...Show MoreMetadata
Abstract:
Time-domain solutions to a detailed carrier injection model for multiple-quantum-well lasers under large signal current step injection is presented. The calculations yield a description of electron and hole carrier density distribution in space, time, and energy and also lead to the identification of a photon-assisted transport mechanism which may have a major impact on the dynamics of lasers with a large number of wells.<>
Published in: IEEE Photonics Technology Letters ( Volume: 5, Issue: 3, March 1993)
DOI: 10.1109/68.205615
Citations are not available for this document.
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Cites in Papers - IEEE (6)
Select All
1.
Jihong Zhang, Tienmo Shih, "A Transient Bulging Phenomenon in Fast Doping Processes for p-n Junctions", IEEE Access, vol.8, pp.126523-126529, 2020.
2.
Y. Matsui, H. Murai, S. Arahira, Y. Ogawa, A. Suzuki, "Novel design scheme for high-speed MQW lasers with enhanced differential gain and reduced carrier transport effect", IEEE Journal of Quantum Electronics, vol.34, no.12, pp.2340-2349, 1998.
3.
G. Rossi, R. Paoletti, M. Meliga, "SPICE simulation for analysis and design of fast 1.55 /spl mu/m MQW laser diodes", Journal of Lightwave Technology, vol.16, no.8, pp.1509-1516, 1998.
4.
L.V.T. Nguyen, A.J. Lowery, P.C.R. Gurney, D. Novak, "A time-domain model for high-speed quantum-well lasers including carrier transport effects", IEEE Journal of Selected Topics in Quantum Electronics, vol.1, no.2, pp.494-504, 1995.
5.
D. Ahn, Shun Lien Chuang, "The theory of strained-layer quantum-well lasers with bandgap renormalization", IEEE Journal of Quantum Electronics, vol.30, no.2, pp.350-365, 1994.
6.
N. Tessler, G. Eistenstein, "On carrier injection and gain dynamics in quantum well lasers", IEEE Journal of Quantum Electronics, vol.29, no.6, pp.1586-1595, 1993.
Cites in Papers - Other Publishers (7)
1.
Mingjun Xia, H. Ghafouri-Shiraz, "Effects of spontaneous emission excited state lifetime on the output performance of quantum well lasers", Optical and Quantum Electronics, vol.49, no.6, 2017.
2.
Mingjun Xia, H. Ghafouri-Shiraz, "Transmission line model for strained quantum well lasers including carrier transport and carrier heating effects", Applied Optics, vol.55, no.7, pp.1518, 2016.
3.
R Pagano, J O'Callaghan, J P Reithmaier, S Deubert, A Forchel, J Mukherjee, J G Mclnerney, B Corbett, "2D substrate imaging of a tapered laser cavity based on InGaAs quantum dots", IOP Conference Series: Materials Science and Engineering, vol.6, pp.012010, 2009.
4.
Nobuo Suzuki, Masayuki Ishikawa, "A frequency response model in multiquantum well lasers with unequilibrium carrier transport", Optical and Quantum Electronics, vol.26, no.7, pp.S789, 1994.
5.
Radhakrishnan Nagarajan, "Carrier transport effects in quantum well lasers: an overview", Optical and Quantum Electronics, vol.26, no.7, pp.S647, 1994.
6.
T. Ishikawa, R. Nagarajan, J. E. Bowers, "Analysis of the effects of doping and barrier design on the small-signal modulation characteristics of long-wavelength multiple quantum well lasers", Optical and Quantum Electronics, vol.26, no.7, pp.S805, 1994.
7.
N. Tessler, G. Eisenstein, "Modelling carrier dynamics and small-signal modulation response in quantum-well lasers", Optical and Quantum Electronics, vol.26, no.7, pp.S767, 1994.
