A narrow photoluminescence linewidth of 21 meV at 1.35 μm from strain-reduced InAs quantum dots covered by In0.2Ga0.8As grown on GaAs substrates
- 22 February 1999
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 74 (8), 1111-1113
- https://doi.org/10.1063/1.123459
Abstract
InAs quantum dots with size fluctuations of less than 4% were grown on GaAs using the self-assembling method. By covering the quantum dots with In0.2Ga0.8As or In0.2Al0.8As, strain in InAs dots can be partly reduced due to relaxation of lattice constraint in the growth direction. This results in low-energy emission (about 1.3 μm) from the quantum dots. The photoluminescence linewidth can be reduced to 21 meV at room temperature. This width is completely comparable to the theoretical limit of a band-to-band emission from a quantum well at room temperature. Because the dots can be uniformly covered by the strain reducing layers, factors that degrade size uniformity during coverage, such as compositional mixing or segregation, will be suppressed, allowing for an almost ideal buried quantum dot structure.Keywords
This publication has 14 references indexed in Scilit:
- 1.3 μm room-temperature GaAs-based quantum-dot laserApplied Physics Letters, 1998
- Long-wavelength lasing from InAs self-assembled quantum dots on (311) B InPApplied Physics Letters, 1998
- Radiation characteristics of injection lasers based on vertically coupled quantum dotsSuperlattices and Microstructures, 1997
- 1.3 μm photoluminescence from InGaAs quantum dots on GaAsApplied Physics Letters, 1995
- Strained InGaAs quantum disk laser with nanoscale active region fabricated with self-organisation on GaAs (311)B substrateElectronics Letters, 1995
- Self-Formed In0.5Ga0.5As Quantum Dots on GaAs Substrates Emitting at 1.3 µmJapanese Journal of Applied Physics, 1994
- Direct formation of quantum-sized dots from uniform coherent islands of InGaAs on GaAs surfacesApplied Physics Letters, 1993
- Gain and the threshold of three-dimensional quantum-box lasersIEEE Journal of Quantum Electronics, 1986
- Growth by molecular beam epitaxy and characterization of InAs/GaAs strained-layer superlatticesApplied Physics Letters, 1985
- Multidimensional quantum well laser and temperature dependence of its threshold currentApplied Physics Letters, 1982