Title :
2-D-3-D crossover in single asymmetric quantum wells: investigation of the electric field and temperature effects
Author :
Qu, Fanyao ; Morais, Paulo C.
Author_Institution :
Dept. de Ciencias Fisicas, Univ. Fed. de Uberlandia, Brazil
fDate :
3/1/2000 12:00:00 AM
Abstract :
The 2-D-3-D crossover in n-doped GaAs-Ga/sub 0.63/Al/sub 0.37/As single asymmetric quantum wells is theoretically investigated. The coupled one-dimensional Schrodinger and Poisson equations are solved self-consistently, in the frame of the finite-difference method. The present study shows that the 2-D-3-D crossover depends upon the geometrical parameters, as for instance, the quantum well width and spacer layer width. It also depends on the temperature and the gate voltage applied on an asymmetric quantum-well-based device. The 2-D-3-D crossover diagrams involving the well width dependence of both the electric field and the temperature are presented and discussed.
Keywords :
Fermi level; III-V semiconductors; Poisson equation; Schrodinger equation; absorption coefficients; aluminium compounds; band structure; carrier density; electro-optical modulation; finite difference methods; gallium arsenide; interface states; quantum confined Stark effect; semiconductor heterojunctions; semiconductor quantum wells; 2D-3D crossover; 2D-3D crossover diagrams; GaAs-Ga/sub 0.63/Al/sub 0.37/As; Poisson equation; Schrodinger equation; asymmetric quantum-well-based device; coupled one-dimensional Schrodinger/Poisson equations; electric field; electric field effects; finite-difference method; gate voltage; geometrical parameters; quantum well width; single asymmetric quantum wells; spacer layer width; temperature; temperature effects; well width dependence; Absorption; Electrooptic modulators; Photonic band gap; Plasma density; Plasma properties; Plasma temperature; Poisson equations; Quantum mechanics; Temperature dependence; Voltage;
Journal_Title :
Quantum Electronics, IEEE Journal of
