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Exciton trapping, binding and diamagnetic shift in T-shaped quantum wires

โœ Scribed by G.W. Bryant; P.S. Julienne; Y.B. Band

Publisher
Elsevier Science
Year
1996
Tongue
English
Weight
112 KB
Volume
20
Category
Article
ISSN
0749-6036

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โœฆ Synopsis

We determine the exciton states of T-shaped quantum wires. We use anisotropic effectivemass models to describe the electron and hole states. Pair correlation along the wire axis and in the lateral directions is included. We accurately model the measured redshifts between exciton photoluminescence in quantum wells and T-shaped wires. This redshift arises from enhanced exciton binding and the difference between well and wire confinement energy. We predict a large enhancement of binding energy only when lateral correlation is included, indicating that T-shaped wires are quasi rather than quantum 1D wires. We calculate exciton shapes and diamagnetic shifts to determine how the exciton is distorted when confined in a T-wire.

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