Room temperature continuous-wave operation of buried ridge stripe lasers using InAs-InP (100) quantum dots as active core

Room temperature continuous-wave operation of buried ridge stripe lasers using InAs-InP (100) quantum dots as active core

Self-organized InAs quantum-dot (QD) lasers emitting at 1.5 μm were grown by gas source molecular beam epitaxy on (100) InP substrates. Room temperature continuous-wave (CW) operation of QD-based buried ridge stripe lasers is reported. We investigated experimentally the relevant CW performances of a...

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Veröffentlicht in:IEEE photonics technology letters 2005-07, Vol.17 (7), p.1369-1371
Hauptverfasser: Lelarge, F., Rousseau, B., Dagens, B., Poingt, F., Pommereau, F., Accard, A.
Format: Artikel
Sprache:eng
Schlagworte:
Density
Gas lasers
Gas source molecular beam epitaxy (GSMBE)
Holes
Indium phosphide
InGaAsP-InP quantum-dot (QD) lasers
Laser applications
Laser modes
Lasers
Lasing
Molecular beam epitaxial growth
Quantum dot lasers
Quantum dots
Ridges
semiconducting III-V materials
Substrates
Telecommunications
Temperature
Threshold current
Threshold currents
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Zusammenfassung:Self-organized InAs quantum-dot (QD) lasers emitting at 1.5 μm were grown by gas source molecular beam epitaxy on (100) InP substrates. Room temperature continuous-wave (CW) operation of QD-based buried ridge stripe lasers is reported. We investigated experimentally the relevant CW performances of as-cleaved InP-based QD lasers for telecom applications such as temperature properties (T 0 =56 K), infinite length threshold current density (J/sub /spl infin///spl sim/150 A/cm 2 per QDs layer) and internal efficiency (0.37 W/A). Lasing in pulsed mode is observed for cavity length as short as 200 μm with a threshold current of about 37 mA, demonstrating the high gain of the QD's active core. In addition, the Henry parameter of these InP-based QD lasers is experimentally determined using the Hakki-Paoli method (/spl alpha//sub H//spl sim/2.2).
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2005.848279