Ingibjorg Magnusdottir, Vidar Gudmundsson
Published 1999-07-15Version 1
We investigate the effects of the shape of quantum dots on their far-infrared absorption in an external magnetic field by a model calculation. We focus our attention on dots with a parabolic confinement potential deviating from the common circular symmetry, and dots having circular doughnut shape. For a confinement where the generalized Kohn theorem does not hold we are able to interprete the results in terms of a mixture of a center-of-mass mode and collective modes reflecting an excitation of relative motion of the electrons. The calculations are performed within the time-dependent Hartree approximation and the results are compared to available experimental results.
Comments: RevTeX, 16 pages with 10 postscript figures included. Submitted to Phys. Rev. B
Journal: Phys. Rev. B 60, 16591 (1999)
Effect of external magnetic field on electron spin dephasing induced by hyperfine interaction in quantum dots
Two-dimensional electron gas in a periodic potential and external magnetic field: states of pairs and three-particle systems
Spin relaxation in the impurity band of a semiconductor in the external magnetic field
