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Shape-independent scaling of excitonic confinement in realistic quantum wires

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arxiv cond-mat/9704061 v1 pith:3KUZJEOA submitted 1997-04-08 cond-mat

Shape-independent scaling of excitonic confinement in realistic quantum wires

classification cond-mat
keywords bindingenergyscalingconfinementexcitonquantumrealisticwire
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The scaling of exciton binding energy in semiconductor quantum wires is investigated theoretically through a non-variational, fully three-dimensional approach for a wide set of realistic state-of-the-art structures. We find that in the strong confinement limit the same potential-to-kinetic energy ratio holds for quite different wire cross-sections and compositions. As a consequence, a universal (shape- and composition-independent) parameter can be identified that governs the scaling of the binding energy with size. Previous indications that the shape of the wire cross-section may have important effects on exciton binding are discussed in the light of the present results.

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