Add to ORKGIn this thesis we describe the calculation of the electronic subband structures of semiconductor quantum wells and superlattices in the Envelope Function Approximation. We show how the results of these calculations demonstrate the possibility for improvement of long-wavelength semiconductor laser device characteristics by bandstructure engineering. We present calculations for proposed strained layer and (111)-grown laser structures. We describe the observation of the pressure dependence of the light-hole mass in a quantum well within the framework of our calculational scheme, perform calculations for SiGe superlattices and give analytic results for quantum well, valence band-edge, effective masses in a 2-band (heavy-hole/light-hole) model
Using an envelope function model, we have calculated the valence band structures in quantum wells an...
We present the theoretical basis of wavefunction engineering. We show that a Lagrangian formulation ...
The electronic structures of GaAs/Ga1-xAlxAs quantum wires (corrugated superlattices) grown on (311)...
In this thesis we describe the calculation of the electronic subband structures of semiconductor qua...
The work described in this thesis is a theoretical investigation of the effects of band structure, s...
The work described in this thesis is a theoretical investigation of the effects of band structure, s...
The valence-band structure of a semiconductor quantum well is calculated based on the multiband effe...
The valence-band structure of a semiconductor quantum well is calculated based on the multiband effe...
In the framework of effective-mass envelope function theory, the valence energy subbands and optical...
A model allowing for efficiently obtaining band structure information on semiconductor Quantum Well ...
This thesis is concerned with the improvement of semiconductor laser characteristics using valence b...
This thesis is concerned with the improvement of semiconductor laser characteristics using valence b...
Using effective-mass Hamiltonian model of semiconductors quantum well structures, we investigate the...
ABSTRACT: We perform theoretical calculations for the band structure of semiconductor superlattice u...
Using an envelope function model, we have calculated the valence band structures in quantum wells an...
Using an envelope function model, we have calculated the valence band structures in quantum wells an...
We present the theoretical basis of wavefunction engineering. We show that a Lagrangian formulation ...
The electronic structures of GaAs/Ga1-xAlxAs quantum wires (corrugated superlattices) grown on (311)...
In this thesis we describe the calculation of the electronic subband structures of semiconductor qua...
The work described in this thesis is a theoretical investigation of the effects of band structure, s...
The work described in this thesis is a theoretical investigation of the effects of band structure, s...
The valence-band structure of a semiconductor quantum well is calculated based on the multiband effe...
The valence-band structure of a semiconductor quantum well is calculated based on the multiband effe...
In the framework of effective-mass envelope function theory, the valence energy subbands and optical...
A model allowing for efficiently obtaining band structure information on semiconductor Quantum Well ...
This thesis is concerned with the improvement of semiconductor laser characteristics using valence b...
This thesis is concerned with the improvement of semiconductor laser characteristics using valence b...
Using effective-mass Hamiltonian model of semiconductors quantum well structures, we investigate the...
ABSTRACT: We perform theoretical calculations for the band structure of semiconductor superlattice u...
Using an envelope function model, we have calculated the valence band structures in quantum wells an...
Using an envelope function model, we have calculated the valence band structures in quantum wells an...
We present the theoretical basis of wavefunction engineering. We show that a Lagrangian formulation ...
The electronic structures of GaAs/Ga1-xAlxAs quantum wires (corrugated superlattices) grown on (311)...