Title :
Quantum-well nonlinear optical response, including valence-band mixing and Coulomb effects
Author :
Debernardi, Pierluigi ; Pisoni, Alberto ; Bava, Gian Paolo
Author_Institution :
CNR, Torino, Italy
fDate :
1/1/1994 12:00:00 AM
Abstract :
In this paper a complete model to evalute the nonlinear optical response of a semiconductor quantum-well structure is presented. In these structures, excitonic effects are strong also at room temperature; they arise from Coulomb interaction between charged particles, and the corresponding many-body problem is treated in the framework of the second quantization approach, based on the total Hamiltonian of the interacting electron-hole plasma. Moreover Coulomb effects are included, together with a proper description of valence-band states, which accounts for heavy- and light-hole mixing through a variational technique. The computed optical responses, both for TE and TM polarized light, are evaluated by summing up the coupled contributions of the first two transitions; they show a satisfactory agreement with experimental results
Keywords :
electric potential; nonlinear optics; semiconductor quantum wells; valence bands; variational techniques; Coulomb effects; Coulomb interaction; SQ well structure; TE polarized light; TM polarized light; charged particles; excitonic effects; heavy-hole mixing; interacting electron-hole plasma; light-hole mixing; many-body problem; optical responses; quantum-well nonlinear optical response; room temperature; second quantization approach; semiconductor quantum-well structure; total Hamiltonian; valence-band mixing; valence-band states; variational technique; Nonlinear optics; Optical bistability; Optical computing; Optical mixing; Optical refraction; Optical resonators; Optical variables control; Plasma temperature; Quantum wells; Tellurium;
Journal_Title :
Quantum Electronics, IEEE Journal of
