Electron g factor in quantum wires and quantum dots

1 January 1998

journal article
Published by Pleiades Publishing Ltd in JETP Letters

Vol. 67 (1) , 43-47
https://doi.org/10.1134/1.567625

Abstract

A theory of the Zeeman effect for electrons in one-and zero-dimensional semiconductor heterostructures is developed. A relation is established between the number of linearly independent components of the g-factor tensor and the point symmetry of a low-dimensional system. A specific calculation is performed for a spherical quantum dot and a cylindrical wire.

Keywords

This publication has 6 references indexed in Scilit:

Electron and hole $g$ factors measured by spin-flip Raman scattering in CdTe/Cd $_{1 - x}$ Mg $_{x}$ Te single quantum wells
Physical Review B, 1997
Electronic g factor in biased quantum wells
Solid State Communications, 1997
Anisotropy of the electron Landégfactor in quantum wells
Semiconductor Science and Technology, 1997
Electron g factor in quantum wells determined by spin quantum beats
Solid State Communications, 1995
Conduction-band spin splitting of type-I ${Ga}_{x}$ ${In}_{1 - x}$ As/InP quantum wells
Physical Review B, 1994
Theory of Optical Magneto-Absorption Effects in Semiconductors
Physical Review B, 1959