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Proceedings Paper

Long lifetime cw InGaN laser diodes by molecular beam epitaxy
Author(s): M. Kauer; W. S. Tan; S. E. Hooper; J. M. Barnes; J. Heffernan
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Paper Abstract

The growth and fabrication of 405 nm InGaN laser diodes by molecular beam epitaxy (MBE) has made rapid progress over the last three years. In 2004, the authors reported the first MBE-grown nitride laser diodes. In mid-2005 the authors then demonstrated room-temperature continuous-wave (cw) operation. This was achieved by significantly reducing the threshold current density to 5.6 kA/cm2 for facet-coated LDs. The lifetime of these first MBE-grown cw lasers was up to 3 minutes, limited by power dissipation. In this paper we report on the progress we have made in reducing operating voltage and power dissipation, enabling a significant increase in laser lifetime. Uncoated 2x1000 &mgr;m ridge waveguide lasers fabricated on freestanding GaN substrates have a continuous-wave (cw) threshold current of 110 mA, corresponding to a threshold current density of 5.5 kA/cm2. For 2x600 &mgr;m laser diodes the minimum threshold current is 70 mA. Cw laser lifetime vs. power dissipation data is presented, with a maximum lifetime of 2.6 hours for the best laser. The lifetime versus power dissipation data shows that the MBE-grown lasers follow a similar trend as lasers grown by metalorganic chemical vapor deposition (MOCVD). We also report length dependence measurements of these long lifetime lasers, with a gain G0 of 2000-2200 cm-1 and an internal loss &agr;i=30-45 cm-1.

Paper Details

Date Published: 8 February 2007
PDF: 9 pages
Proc. SPIE 6473, Gallium Nitride Materials and Devices II, 64730Y (8 February 2007); doi: 10.1117/12.696721
Show Author Affiliations
M. Kauer, Sharp Labs. of Europe (United Kingdom)
W. S. Tan, Sharp Labs. of Europe (United Kingdom)
S. E. Hooper, Sharp Labs. of Europe (United Kingdom)
J. M. Barnes, Sharp Labs. of Europe (United Kingdom)
J. Heffernan, Sharp Labs. of Europe (United Kingdom)


Published in SPIE Proceedings Vol. 6473:
Gallium Nitride Materials and Devices II
Hadis Morkoc; Cole W. Litton, Editor(s)

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