Modeling and Simulation of Strained Quantum Wells in Semiconductor Lasers
نویسندگان
چکیده
Amodel allowing for efficiently obtaining band structure information on semiconductor Quantum Well structures will be demonstrated which is based on matrix-valued kp-Schrödinger operators. Effects such as confinement, band mixing, spin-orbit interaction and strain can be treated consistently. The impact of prominent Coulomb effects can be calculated by including the Hartree interaction via the Poisson equation and the bandgap renormalization via exchange-correlation potentials, resulting in generalized (matrix-valued) Schrödinger-Poisson systems. Band structure information enters via densities and the optical response function into comprehensive simulations of Multi Quantum Well lasers. These device simulations yield valuable information on device characteristics, including effects of carrier transport, waveguiding and heating and can be used for optimization. 1999 Physics and Astronomy Classification Scheme (PACS): 42.55.Px, 73.20.Dx, 85.60.Bt, 78.66.Fd.
منابع مشابه
Effects of quantum well design on the optical and microwave performance of strained-layer GaInAs/GaAs lasers
By introducing strain into semiconductor lasers using GaAs/Gai-xlnxAs quantum wells, their modulation bandwidth has been increased to beyond 20 GHz1'2'3& Our approach to high modulation bandwidth strained layer quantum well lasers has been to fabricate short cavity (less than 1OO.tm) multiple quantum well structures. In order to fabricate lasers of this length, the facets must be etched by chem...
متن کاملThe Effects of Strained Multiple Quantum Well on the Chirped DFB-SOA All Optical Flip-Flop
In this paper, based on the coupled-mode and carrier rate equations, a dynamic model and numerical analysis of a multi quantum well (MQW) chirped distributed feedback semiconductor optical amplifier (DFB-SOA) all-optical flip-flop is precisely derived. We have analyzed the effects of strains of QW and MQW and cross phase modulation (XPM) on the dynamic response, and rise and fall times of the ...
متن کاملSTRAINED-LAYER 1.5pm WAVELENGTH InGaAs/lnP MULTIPLE QUANTUM WELL LASERS GROWN BY CHEMICAL BEAM EPITAXY
A substantial reduction is reported in the threshold current densities for 1 5 p m wavelength In,Ga,+,As/ In,Ga, .,As, -”P, strained-layer multiple quantum well (SLMQW) lasers over lattice-matched MQW lasers. Threshold current density was found to depend sensitively on the InAs content x and thickness d of the In,Ga, -.As quantum wells. Threshold current densities as low as 370A/cm2 and interna...
متن کاملInvestigation of the optical gain of In0.2Ga0.8As/GaAs compressively strained quantum wells
The valence hole subbands, the TE and TM mode optical gains and radiative current density of In0.2Ga0.8As/GaAs compressively strained quantum well lasing at 980nm have been studied by using a 6x 6 Hamiltonian model including the heavy hole, light hole and spin-orbit splitting bands. The compressively strain enhances the TE mode optical gains and strongly depresses the TM mode optical gain. A ve...
متن کاملModulation Response and Relative Intensity Noise Spectra in Quantum Cascade Lasers
Static properties, relatively intensity noise and intensity modulation response in quantum cascade lasers (QCLs) studied theoretically in this paper. The present rate equations model consists of three equations for the electrons density in the conduction band and one equation for photons density in cavity length. Two equations were derived to calculate the noise and modulation response. Calcula...
متن کامل