Title :
Quantum-dot heterostructure lasers
Author :
Ledentsov, Nikolai N. ; Grundmann, M. ; Heinrichsdorff, F. ; Bimberg, Dieter ; Ustinov, V.M. ; Zhukov, A.E. ; Maximov, M.V. ; Alferov, Zh.I. ; Lott, J.A.
Author_Institution :
Inst. fur Festkorperphys., Tech. Univ. Berlin, Germany
Abstract :
Quantum-dot (QD) heterostructures are nanoscale coherent insertions of narrow-gap material in a single-crystalline matrix. These tiny structures provide unique opportunities to modify and extend all basic principles of heterostructure lasers and advance their applications. Despite early predictions, fabrication of QD heterostructure (QDHS) lasers appeared to be a much more challenging task, as compared to quantum well (QW) devices. The breakthrough occurred when techniques for self-organized growth of QD´s allowed the fabrication of dense arrays of coherent islands, uniform in shape and size, and, simultaneously, free from undesirable defects. Recently, the figure of merit of QDHS lasers surpasses some of the key characteristics of QW devices in some of the most important applications.
Keywords :
Quantum well lasers; Reviews; Semiconductor quantum dots; applications; coherent islands; dense arrays; fabrication; figure of merit; nanoscale coherent insertions; narrow-gap material; quantum-dot heterostructure lasers; self-organized growth; single-crystalline matrix; Absorption; Charge carriers; Optical device fabrication; Optical materials; Quantization; Quantum dot lasers; Quantum dots; Quantum well lasers; Semiconductor laser arrays; Temperature distribution;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.865099
