Infrared semiconductor lasers for sensing and diagnostics

被引:0
|
作者
J. Wagner
Ch. Mann
M. Rattunde
G. Weimann
机构
[1] Fraunhofer-Institut für Angewandte Festkörperphysik,
来源
Applied Physics A | 2004年 / 78卷
关键词
Active Region; Design Concept; Semiconductor Laser; Relative Merit; Quantum Cascade Laser;
D O I
暂无
中图分类号
学科分类号
摘要
There is an increasing demand for spectrally agile compact solid-state lasers for spectroscopic sensing and diagnostics. This demand can be met by III–V semiconductor-based lasers employing various design concepts for the active region. These concepts include, apart from the classical type-I interband diode laser, the type-II W-laser and the unipolar quantum cascade laser. Representative device data will be presented for these three types of lasers in conjunction with a discussion of the relative merits of the different active-region concepts.
引用
收藏
页码:505 / 512
页数:7
相关论文
共 50 条
  • [41] Lasing properties of semiconductor microcavity lasers
    Wu, GH
    Houlihan, J
    Huyet, G
    Corbett, B
    Lambkin, P
    OPTO-IRELAND 2002: OPTICS AND PHOTONICS TECHNOLOGIES AND APPLICATIONS, PTS 1 AND 2, 2003, 4876 : 1076 - 1083
  • [42] Recent developments in high-power, short-wave mid-infrared semiconductor disk lasers
    Burns, D.
    Hopkins, J-M.
    Kemp, A. J.
    Roesener, B.
    Schulz, N.
    Manz, C.
    Koehler, K.
    Rattunde, M.
    Wagner, J.
    SOLID STATE LASERS XVIII: TECHNOLOGY AND DEVICES, 2009, 7193
  • [43] High-power semiconductor separate-confinement double heterostructure lasers
    Tarasov, I. S.
    QUANTUM ELECTRONICS, 2010, 40 (08) : 661 - 681
  • [44] The temperature dependence of internal optical losses in semiconductor lasers (λ = 900–920 nm)
    N. A. Pikhtin
    S. O. Slipchenko
    I. S. Shashkin
    M. A. Ladugin
    A. A. Marmalyuk
    A. A. Podoskin
    I. S. Tarasov
    Semiconductors, 2010, 44 : 1365 - 1369
  • [45] Temperature dependence of the threshold current density in semiconductor lasers (λ = 1050–1070 nm)
    I. S. Shashkin
    D. A. Vinokurov
    A. V. Lyutetskiy
    D. N. Nikolaev
    N. A. Pikhtin
    N. A. Rudova
    Z. N. Sokolova
    S. O. Slipchenko
    A. L. Stankevich
    V. V. Shamakhov
    D. A. Veselov
    K. V. Bakhvalov
    I. S. Tarasov
    Semiconductors, 2012, 46 : 1211 - 1215
  • [46] Analysis of Facet Temperature Distribution of Semiconductor Lasers
    Zhao, Tiansheng
    Li, Zaijin
    Li, Te
    Lu, Peng
    Qu, Yi
    Bo, Baoxue
    Liu, Guojun
    Ma, Xiaohui
    Wang, Yong
    PROCEEDINGS OF THE 2015 INTERNATIONAL CONFERENCE ON MATERIALS, ENVIRONMENTAL AND BIOLOGICAL ENGINEERING, 2015, 10 : 115 - 118
  • [47] RELATIVE INTENSITY NOISE IN SEMICONDUCTOR-LASERS
    JOINDOT, I
    ANNALES DES TELECOMMUNICATIONS-ANNALS OF TELECOMMUNICATIONS, 1991, 46 (3-4): : 191 - 204
  • [48] Quantum control of phase fluctuations in semiconductor lasers
    Santis, Christos T.
    Vilenchik, Yaakov
    Satyan, Naresh
    Rakuljic, George
    Yariv, Amnon
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2018, 115 (34) : E7896 - E7904
  • [49] Dissipative Kerr solitons in semiconductor ring lasers
    Meng, Bo
    Singleton, Matthew
    Hillbrand, Johannes
    Franckie, Martin
    Beck, Mattias
    Faist, Jerome
    NATURE PHOTONICS, 2022, 16 (02) : 142 - +
  • [50] Proposal on temperature-insensitive semiconductor lasers
    Numai, T
    Mizutani, N
    Nitta, J
    JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS SHORT NOTES & REVIEW PAPERS, 1999, 38 (08): : 4764 - 4767
12345