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

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

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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 7cm-1. The observed temperature dependence of the waveguide loss is explained by means of the thermal behaviour of the electron mobility.

Inspec keywords: semiconductor growth; gallium compounds; optical losses; indium compounds; III-V semiconductors; laser transitions; molecular beam epitaxial growth; quantum cascade lasers; optical design techniques; waveguide lasers; electron mobility; optical waveguides

Other keywords: injection efficiency; GaInAs-AlInAs; electron mobility; low-loss waveguide design; molecular beam epitaxy; 22 mum; 5.5 mum; plasmon enhancement; GaInAs-based waveguides; 450 K; InP-based quantum cascade lasers; 2.7 mm; pulsed mode

Subjects: Optical waveguides and couplers; Design of specific laser systems; Semiconductor lasers; Optical waveguides; Lasing action in semiconductors

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