Finite size effects on the optical transitions in quantum rings under a magnetic field

We present a theoretical study of the energy spectrum of single electron and hole states in quantum dots of annular geometry under a high magnetic field along the ring axis in the frame of uncorrelated electron-hole theory. We predict the periodic disappearance of the optical emission of the electron-hole pair as the magnetic field increases, as a consequence of the finite height of the barriers. The model has been applied to semiconductor rings of various internal and external radii, giving as limiting cases the disk and antidot. Copyright EDP Sciences/Società Italiana di Fisica/Springer-Verlag 2006

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Year of publication:	2006
Authors:	Bandos, T. V. ; Cantarero, A. ; García-Cristóbal, A.
Published in:	The European Physical Journal B - Condensed Matter and Complex Systems. - Springer. - Vol. 53.2006, 1, p. 99-108
Publisher:	Springer
Subject:	73.21.La Quantum dots \| 71.35.Ji Excitons in magnetic fields \| magnetoexcitons \| 73.23.Ra Persistent currents \| 78.67.Hc Quantum dots

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Type of publication:	Article
Source:	RePEc - Research Papers in Economics

Persistent link: https://www.econbiz.de/10009281734