Title :
Mid-IR interband cascade light emitting diodes based on type-II quantum wells
Author :
Yang, Rui Q. ; Lin, Chih-Hsiang ; Chang, P.C. ; Murry, S.J. ; Zhang, D. ; Pei, S.S. ; Kurtz, S.R. ; Chu, Sung-Nee G. ; Ren, Fan
Author_Institution :
Space Vacuum Epitaxy Center, Houston Univ., TX, USA
Abstract :
We can circumvent the fast phonon scattering loss in type-I QC lasers, while retaining the cascaded tunneling injection advantage, by utilizing photon emission between an electron state and a hole state in a new class of QC lasers based on type-II QWs, which was first proposed by Yang and is referred to as type-II QC lasers. The type-II QC lasers can have a higher radiative efficiency because the phonon relaxation process is greatly suppressed in an interband transition. Here, we report the first observation of mid-IR electroluminescence in such a type-II QC laser structure. We illustrates the band diagram of two periods of an InAs-AlSb-GaSb type-II QC laser diode under a forward bias.
Keywords :
III-V semiconductors; aluminium compounds; electroluminescence; gallium compounds; indium compounds; infrared sources; infrared spectra; laser transitions; light emitting diodes; quantum well lasers; InAs-AlSb-GaSb; InAs-AlSbGaSb type-II QC laser diode; QC lasers; cascaded tunneling injection; electron state; fast phonon scattering loss; forward bias; hole state; interband transition; mid-IR electroluminescence; mid-IR interband cascade light emitting diodes; phonon relaxation process; photon emission; quantum well lasers; radiative efficiency; type-I QC lasers; type-II QC laser structure; type-II QW laser; type-II quantum wells; Charge carrier processes; Electroluminescence; Electron emission; Laser transitions; Light emitting diodes; Light scattering; Particle scattering; Phonons; Quantum cascade lasers; Tunneling;
Conference_Titel :
Lasers and Electro-Optics Society Annual Meeting, 1996. LEOS 96., IEEE
Conference_Location :
Boston, MA, USA
Print_ISBN :
0-7803-3160-5
DOI :
10.1109/LEOS.1996.571621
