Title :
Analysis of Quantum-Dot Spin-VCSELs
Author :
Adams, Mike J. ; Alexandropoulos, Dimitris
Author_Institution :
Sch. of Comput. Sci. & Electron. Eng., Univ. of Essex, Colchester, UK
Abstract :
The derivation of a set of rate equations (REs) to describe optically pumped quantum-dot (QD) spin-injected vertical-cavity surface-emitting lasers (VCSELs) is presented based on a modified version of the spin-flip model. The approach includes capture of spin-up and spin-down electrons from the wetting layer into the ground state of the QD and also coupling between left- and right-circularly polarized fields caused by birefringence and dichroism. Numerical solutions of the REs are presented in the form of stability maps in the plane of pump polarization and total pump intensity; examples of calculated time series of the polarized field components are also given for specific cases of interest. The values of the spin-relaxation rate, the carrier capture rate, and the gain parameter are shown to have a significant effect on the dynamics of quantum-dot spin-VCSELs.
Keywords :
birefringence; dichroism; optical pumping; quantum dot lasers; surface emitting lasers; birefringence; carrier capture rate; dichroism; ground state; left-circularly polarized fields; optically pumped; polarized field components; quantum-dot spin-VCSEL; rate equations; right-circularly polarized fields; spin-flip model; spin-relaxation rate; stability maps; Couplings; Equations; Mathematical model; Optical polarization; Optical pumping; Quantum dot lasers; Vertical cavity surface emitting lasers; Quantum dots; chaos; nonlinear dynamical systems; optical polarization; semiconductor lasers; vertical cavity surface emitting lasers;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2012.2204868
