Two-Electron Spherical Quantum Dot in a Magnetic FieldReport as inadecuate




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Few-Body Systems

, Volume 57, Issue 12, pp 1127–1138

First Online: 18 July 2016Received: 16 May 2016Accepted: 12 July 2016

Abstract

We investigate three-dimensional, two-electron quantum dots in an external magnetic field B. Due to mixed spherical and cylindrical symmetry the Schrödinger equation is not completely separable. Highly accurate numerical solutions, for a wide range of B, have been obtained by the expansion of wavefunctions in double-power series and by imposing on the radial functions appropriate boundary conditions. The asymptotic limit of a very strong magnetic field and the 2D approach have been considered. Ground state properties of the two-electron semiconductor quantum dots are investigated using both the 3D and 2D models. Theoretical calculations have been compared with recent experimental results.

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Author: A. Poszwa

Source: https://link.springer.com/







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