SiGe/Si THz laser based on transitions between inverted mass light-hole and heavy-hole subbands
- 16 January 2001
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 78 (4) , 401-403
- https://doi.org/10.1063/1.1341221
Abstract
We have investigated a SiGe/Si quantum-well laser based on transitions between the light-hole and heavy-hole subbands. The lasing occurs in the region of k space where the dispersion of ground-state light-hole subband is so nonparabolic that its effective mass is inverted. This kind of lasing mechanism makes total population inversion between the two subbands unnecessary. The laser structure can be electrically pumped through tunneling in a quantum cascade scheme. Optical gain as high as 172/cm at the wavelength of 50 μm can be achieved at the temperature of liquid nitrogen, even when the population of the upper laser subband is 15% less than that of the lower subband.Keywords
This publication has 12 references indexed in Scilit:
- Light-hole to heavy-hole acoustic phonon scattering ratePhysical Review B, 2000
- Far-infrared (λ=88 μm) electroluminescence in a quantum cascade structureApplied Physics Letters, 1998
- Progress toward silicon-based intersubband lasersJournal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 1998
- Valence intersubband lasers with inverted light-hole effective massApplied Physics Letters, 1998
- Theory of the strain-symmetrized silicon-based Ge-Si superlattice laserIEEE Journal of Selected Topics in Quantum Electronics, 1998
- Electronic and optical properties of (001) Si/ZnS heterostructuresApplied Physics Letters, 1997
- High Quality Germanium Photodiodes on Silicon Substrates Using an Intermediate Chemical Mechanical Polishing StepMRS Proceedings, 1997
- Infrared waveguiding in Si_1−x−yGexCy upon siliconOptics Letters, 1996
- Interface structure of ZnS/Si(001) and comparison with ZnSe/Si(001) and GaAs/Si(001)Physical Review B, 1995
- Band structure of indium antimonideJournal of Physics and Chemistry of Solids, 1957