Title :
Optical gain of strained wurtzite GaN quantum-well lasers
Author :
Chuang, Shun Lien
Author_Institution :
Dept. of Electr. & Comput. Eng., Illinois Univ., Urbana, IL, USA
Abstract :
A theory for the electronic band structure and the free-carrier optical gain of wurtzite-strained quantum-well lasers is presented. We take into account the strain-induced band-edge shifts and the realistic band structures of the GaN wurtzite crystals. The effective-mass Hamiltonian, the basis functions, the valence band structures, the interband momentum matrix elements, and the optical gain are presented with analytical expressions and numerical results for GaN-AlGaN strained quantum-well lasers. This theoretical model provides a foundation for investigating the electronic and optical properties of wurtzite-strained quantum-well lasers.
Keywords :
III-V semiconductors; aluminium compounds; band structure; gallium compounds; laser theory; quantum well lasers; semiconductor device models; valence bands; GaN wurtzite crystals; GaN-AlGaN; GaN-AlGaN strained quantum-well lasers; basis functions; effective-mass Hamiltonian; electronic band structure; electronic properties; free-carrier optical gain; interband momentum matrix elements; optical gain; optical properties; realistic band structures; strain-induced band-edge shifts; strained wurtzite GaN quantum-well lasers; valence band structures; Aluminum gallium nitride; Gallium nitride; Laser modes; Laser theory; Lattices; Optical pumping; Photonic band gap; Pump lasers; Quantum well lasers; Stimulated emission;
Journal_Title :
Quantum Electronics, IEEE Journal of
