Low-loss GaInAs-based waveguides for high-performance 5.5 μm InP-based quantum cascade lasers

G. Scarpa; N. Ulbrich; G. Böhm; G. Abstreiter; M. C. Amann

doi:10.1049/ip-opt:20030787

Low-loss GaInAs-based waveguides for high-performance 5.5 μm InP-based quantum cascade lasers

G. Scarpa, N. Ulbrich, G. Böhm, G. Abstreiter, M. C. Amann

Walter Schottky Institut

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

7 Zitate (Scopus)

Abstract

Plasmon-enhanced GaInAs-waveguides have been successfully employed for the fabrication of 5.5 μm GaInAs/AlInAs strain-compensated quantum cascade lasers using solid-source molecular beam epitaxy (MBE). The low-loss waveguide design combined with the high injection efficiency of the band-structure results in a very high operating temperature of the devices. Laser action for a 2.7 mm long and 22 μm wide device with uncoated facets was achieved in pulsed mode up to a temperature of 450 K. The measured value of the waveguide loss at room-temperature is 7 cm^-1. The observed temperature dependence of the waveguide loss is explained by means of the thermal behaviour of the electron mobility.

Originalsprache	Englisch
Seiten (von - bis)	284-287
Seitenumfang	4
Fachzeitschrift	IEE Proceedings: Optoelectronics
Jahrgang	150
Ausgabenummer	4
DOIs	https://doi.org/10.1049/ip-opt:20030787
Publikationsstatus	Veröffentlicht - Aug. 2003

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title = "Low-loss GaInAs-based waveguides for high-performance 5.5 μm InP-based quantum cascade lasers",

abstract = "Plasmon-enhanced GaInAs-waveguides have been successfully employed for the fabrication of 5.5 μm GaInAs/AlInAs strain-compensated quantum cascade lasers using solid-source molecular beam epitaxy (MBE). The low-loss waveguide design combined with the high injection efficiency of the band-structure results in a very high operating temperature of the devices. Laser action for a 2.7 mm long and 22 μm wide device with uncoated facets was achieved in pulsed mode up to a temperature of 450 K. The measured value of the waveguide loss at room-temperature is 7 cm-1. The observed temperature dependence of the waveguide loss is explained by means of the thermal behaviour of the electron mobility.",

author = "G. Scarpa and N. Ulbrich and G. B{\"o}hm and G. Abstreiter and Amann, {M. C.}",

year = "2003",

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AU - Scarpa, G.

AU - Ulbrich, N.

AU - Böhm, G.

AU - Abstreiter, G.

AU - Amann, M. C.

PY - 2003/8

Y1 - 2003/8

N2 - Plasmon-enhanced GaInAs-waveguides have been successfully employed for the fabrication of 5.5 μm GaInAs/AlInAs strain-compensated quantum cascade lasers using solid-source molecular beam epitaxy (MBE). The low-loss waveguide design combined with the high injection efficiency of the band-structure results in a very high operating temperature of the devices. Laser action for a 2.7 mm long and 22 μm wide device with uncoated facets was achieved in pulsed mode up to a temperature of 450 K. The measured value of the waveguide loss at room-temperature is 7 cm-1. The observed temperature dependence of the waveguide loss is explained by means of the thermal behaviour of the electron mobility.

AB - Plasmon-enhanced GaInAs-waveguides have been successfully employed for the fabrication of 5.5 μm GaInAs/AlInAs strain-compensated quantum cascade lasers using solid-source molecular beam epitaxy (MBE). The low-loss waveguide design combined with the high injection efficiency of the band-structure results in a very high operating temperature of the devices. Laser action for a 2.7 mm long and 22 μm wide device with uncoated facets was achieved in pulsed mode up to a temperature of 450 K. The measured value of the waveguide loss at room-temperature is 7 cm-1. The observed temperature dependence of the waveguide loss is explained by means of the thermal behaviour of the electron mobility.

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Low-loss GaInAs-based waveguides for high-performance 5.5 μm InP-based quantum cascade lasers

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