High power mid-infrared (λ∼5 μm) quantum cascade lasers operating above room temperature

High power mid-infrared (λ∼5 μm) quantum cascade lasers operating above room temperature

The high power operation of mid-infrared quantum cascade lasers at temperatures up to T=320 K is reported. Gain at high temperature is optimized by a design combining low doping, a funnel injector, and a three-well vertical transition active region. A molecular beam epitaxy grown InP top cladding la...

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Veröffentlicht in:Applied physics letters 1996-06, Vol.68 (26), p.3680-3682
Hauptverfasser: Faist, Jérôme, Capasso, Federico, Sirtori, Carlo, Sivco, Deborah L., Baillargeon, James N., Hutchinson, Albert L., Chu, Sung-Nee G., Cho, Alfred Y.
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container_end_page 3682
container_issue 26
container_start_page 3680
container_title Applied physics letters
container_volume 68
creator Faist, Jérôme
Capasso, Federico
Sirtori, Carlo
Sivco, Deborah L.
Baillargeon, James N.
Hutchinson, Albert L.
Chu, Sung-Nee G.
Cho, Alfred Y.
description The high power operation of mid-infrared quantum cascade lasers at temperatures up to T=320 K is reported. Gain at high temperature is optimized by a design combining low doping, a funnel injector, and a three-well vertical transition active region. A molecular beam epitaxy grown InP top cladding layer is also used to optimize heat dissipation. A peak pulsed optical power of 200 mW and an average power of 6 mW are obtained at 300 K and at a wavelength λ=5.2 μm. The devices also operate in continuous wave up to 140 K.
doi_str_mv 10.1063/1.115741
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title High power mid-infrared (λ∼5 μm) quantum cascade lasers operating above room temperature
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