O. S. Bauzha
Published 2013-09-20Version 1
The separate and combined influences of the spin-orbit and electron-electron interactions on the electron magnetization in quantum rings have been studied theoretically on the basis of the spin-density-functional theory and the Kohn-Sham equation used for the calculation of electron states in two-dimensional parabolic quantum rings containing from two to six electrons. The magnetization of electrons in a quantum ring is calculated at zero temperature. The revealed abrupt changes in the ring magnetization are associated with the crossing of electron states that occurs if the spin-orbit and/or electron-electron interactions are taken into consideration.
Comments: 5 pages, 5 figures (http://www.ujp.bitp.kiev.ua)
Journal: Ukrainian Journal of Physics, 2013, Vol. 58, no. 9, pp. 888-893
Control of many electron states in semiconductor quantum dots by non-Abelian vector potentials
Dephasing due to electron-electron interaction in a diffusive ring
Electron states in a double quantum dot with broken axial symmetry
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