Effect of conduction band non-parabolicity on the optical gain of quantum cascade lasers based on the effective two-band finite difference method
Author:
Funder
Ministry of Trade, industry & Energy
Publisher
IOP Publishing
Subject
Materials Chemistry,Electrical and Electronic Engineering,Condensed Matter Physics,Electronic, Optical and Magnetic Materials
Link
http://iopscience.iop.org/article/10.1088/1361-6641/aa8018/pdf
Reference22 articles.
1. Quantum Cascade Laser
2. Quantum cascade unipolar intersubband light emitting diodes in the 8–13 μm wavelength region
3. Broadband tuning of external cavity bound-to-continuum quantum-cascade lasers
4. Intersubband linewidths in quantum cascade laser designs
5. High-power, continuous-operation intersubband laser for wavelengths greater than 10μm
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1. Efficient strain-modified improved nonparabolic-band energy dispersion model that considers the effect of conduction band nonparabolicity in mid-infrared quantum cascade lasers;Optics Express;2023-09-06
2. Strain-modified effective two-band model for calculating the conduction band structure of strain-compensated quantum cascade lasers: effect of strain and remote band on the electron effective mass and nonparabolicity parameter;Optics Express;2021-11-23
3. Femtosecond Laser Lift‐Off with Sub‐Bandgap Excitation for Production of Free‐Standing GaN Light‐Emitting Diode Chips;Advanced Engineering Materials;2019-12-12
4. Impact of roughening density on the light extraction efficiency of thin-film flip-chip ultraviolet LEDs grown on SiC;Optics Express;2019-07-10
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