Optically pumped stimulated emission in HgCdTe-based quantum wells: Toward continuous wave lasing in very long-wavelength infrared range Auteur(s): Rumyantsev V., Mazhukina K., Utochkin V., Kudryavtsev K., Dubinov A., Aleshkin V. Ya., Razova A., Kuritsin D., Fadeev M., Antonov A., Mikhailov N., Dvoretsky S., Gavrilenko V., Teppe F., Morozov S. (Article) Publié: Applied Physics Letters, vol. 124 p. (2024) Ref HAL: hal-04724748_v1 DOI: 10.1063/5.0186292 Exporter : BibTex | endNote Résumé: Amplified interband emission within the 14–24 μm range is investigated in HgCdTe-based quantum wells under optical pumping. Carrier lifetimes are shown to be marginally limited only by Shockley–Read–Hall recombination, fully realizing the advantage of relativistic energy spectra of 2D HgCdTe in terms of suppressing the Auger processes. By carefully optimizing the waveguides and mitigating carrier heating, we achieve amplification thresholds as low as 1.5–2 W/cm2 at a pulse duration of 20–500 μs. With last generation quantum cascade lasers used for optical pumping, we estimate that continuous-wave HgCdTe lasers can operate in the very long-wavelength range (15–30 μm) and beyond. |