Abstract
The exciton and biexciton ground-state binding energies are calculated for semiconductor quantum wires of radius R smaller than the bulk exciton radius ${a}_{0}$ assuming an infinite confining potential. Both the excitonic and biexcitonic (molecular) binding energies are enhanced by a factor greater than 5 for GaAs/${\mathrm{Ga}}_{1\mathrm{\ensuremath{-}}\mathrm{x}}$${\mathrm{Al}}_{\mathrm{x}}$As quantum wires of radius approximately ${a}_{0}$/2. The simultaneous shrinking of the exciton size with the wire radius is shown to reduce the contribution (when compared with the quasi-two-dimensional case) of dielectric polarization effects which arise when the wire is embedded in a cladding with a lower dielectric constant.
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