Intersubband Electroluminescence from Silicon-Based Quantum Cascade Structures

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22 December 2000

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Published by American Association for the Advancement of Science (AAAS) in Science

Vol. 290 (5500) , 2277-2280
https://doi.org/10.1126/science.290.5500.2277

Abstract

The quantum cascade laser, which uses electronic transitions within a single band of a semiconductor, constitutes a possible way to integrate active optical components into silicon-based technology. This concept necessitates a transition with a narrow linewidth and an upper state with a sufficiently long lifetime. We report the observation of intersubband electroluminescence from a p-type silicon/silicon-germanium quantum cascade structure, centered at 130 millielectron volts with a width of 22 millielectron volts, with the expected polarization, and discernible up to 180 kelvin. The nonradiative lifetime is found to depend strongly on the design of the quantum well structure, and is shown to reach values comparable to that of an equivalent GaInAs/AlInAs laser structure.

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This publication has 12 references indexed in Scilit:

Improved temperature performance of Al0.33Ga0.67As/GaAs quantum-cascade lasers with emission wavelength at λ≈11 μm
Applied Physics Letters, 2000
Direct Observation of Depolarization Shift of the Intersubband Resonance
Physical Review Letters, 2000
GaAs/AlGaAs distributed feedback quantum cascade lasers
Applied Physics Letters, 2000
GaAs/Al x Ga 1−x As quantum cascade lasers
Applied Physics Letters, 1998
High power mid-infrared interband cascade lasers based on type-II quantum wells
Applied Physics Letters, 1997
Intersubband relaxation time in the valence band of Si/Si1−xGex quantum wells
Applied Physics Letters, 1996
Intersubband lasing lifetimes of SiGe/Si and GaAs/AlGaAs multiple quantum well structures
Applied Physics Letters, 1995
Hole energy levels and intersubband absorption in modulation-doped Si/ ${Si}_{1 - x}$ ${Ge}_{x}$ multiple quantum wells
Physical Review B, 1994
Quantum Cascade Laser
Science, 1994
Measurement of the intersubband scattering rate in semiconductor quantum wells by excited state differential absorption spectroscopy
Applied Physics Letters, 1993