Design of an InGaAs/InP 1.55 μm electrically pumped VCSEL

被引:0
|
作者
J.-M. Lamy
S. Boyer-Richard
C. Levallois
C. Paranthoën
H. Folliot
N. Chevalier
A. Le Corre
S. Loualiche
机构
[1] Université Européenne de Bretagne,
[2] INSA-FOTON UMR CNRS 6082,undefined
来源
Optical and Quantum Electronics | 2008年 / 40卷
关键词
Electrically pumped VCSEL; Tunnel junction; 1.55 μm; DBR;
D O I
暂无
中图分类号
学科分类号
摘要
The design of an electrically pumped InGaAs quantum well based vertical cavity surface emitting laser (VCSEL) on InP substrate is presented. Such optically pumped VCSELs have already been demonstrated. To design electrically pumped VCSEL, three simulations steps are needed: optical simulation gives access to the standing-wave electric field distribution, to design the active region and the Bragg mirrors. Thermal simulation is helpful to design metallic contacts while the energy band diagram is obtained by electrical simulation to design the buried tunnel junction useful for carrier injection. All these simulations are compared to experiment.
引用
收藏
页码:1193 / 1198
页数:5
相关论文
共 50 条
  • [1] Design of an InGaAs/InP 1.55 μm electrically pumped VCSEL
    Lamy, J. -M.
    Boyer-Richard, S.
    Levallois, C.
    Paranthoen, C.
    Folliot, H.
    Chevalier, N.
    Le Corre, A.
    Loualiche, S.
    OPTICAL AND QUANTUM ELECTRONICS, 2008, 40 (14-15) : 1193 - 1198
  • [2] Design of coupled InGaAs/InP quantum wells for interferometric switching at 1.55 μm
    Dorren, BHP
    Silov, AY
    Leys, MR
    Haverkort, JEM
    Wolter, JH
    Maat, DHP
    Zhu, Y
    Oei, YS
    Groen, FH
    OPTICS IN COMPUTING 98, 1998, 3490 : 374 - 377
  • [3] Performance and design of InGaAs/InP photodiodes for single-photon counting at 1.55 μm
    Hiskett, PA
    Buller, GS
    Loudon, AY
    Smith, JM
    Gontijo, I
    Walker, AC
    Townsend, PD
    Robertson, MJ
    APPLIED OPTICS, 2000, 39 (36) : 6818 - 6829
  • [4] Lasing emission of electrically pumped InGaAs/InGaAsP/InP microcylinder laser
    Suo, H
    Qin, L
    Ning, YQ
    Pan, YZ
    Liu, Y
    Wang, LJ
    SEMICONDUCTOR OPTOELECTRONIC DEVICE MANUFACTURING AND APPLICATIONS, 2001, 4602 : 99 - 101
  • [5] Towards Integration of 1.55-μm n-InP VCSEL on SOI Platform
    Spiga, S.
    Bergmann, M.
    Schoke, D.
    Amann, M. -C.
    2015 17TH INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS (ICTON), 2015,
  • [6] High temperature, optically pumped, 1.55 μm VCSEL operating at 6 Gb/s
    Keating, Adrian
    Black, Alexis
    Karim, Adil
    Chiu, Yi-Jen
    Abraham, Patrick
    Harder, Chris
    Hu, Evelyn
    Bowers, John
    Annual Device Research Conference Digest, 1999, : 196 - 197
  • [7] Implantation optimization for 1.55 μm VCSEL
    Alcatel Corporate Research Cent, Marcoussis, France
    Conf Proc Int Conf Indium Phosphide and Relat Mater, (87-90):
  • [8] Growth and characterization of electrically pumped red-emitting VCSEL with embedded InP/AlGaInP quantum dots
    Eichfelder, M.
    Schulz, W. -M.
    Reischle, M.
    Wiesner, M.
    Rossbach, R.
    Jetter, M.
    Michler, P.
    JOURNAL OF CRYSTAL GROWTH, 2011, 315 (01) : 131 - 133
  • [9] High-temperature optically pumped 1.55-μm VCSEL operating at 6 Gb/s
    Keating, A
    Black, A
    Karim, A
    Chiu, YJ
    Abraham, P
    Harder, C
    Hu, E
    Bowers, J
    IEEE PHOTONICS TECHNOLOGY LETTERS, 2000, 12 (02) : 116 - 118
  • [10] Compact 1.55μm room-temperature optically pumped VCSEL using photonic crystal mirror
    Boutami, S.
    Ben Bakir, B.
    Regreny, P.
    Leclercq, J. L.
    Viktorovitch, P.
    ELECTRONICS LETTERS, 2007, 43 (05) : 282 - 283
12345