Photocurrent-spectroscopy studies were performed in the 10&T & 300 K temperature range on p-i-n heterostructures grown by molecular-beam epitaxy and incorporating Zn& ,,Cd,,Se/ZnSemultiple quantum wells (with x =0.10 and 0.25) in the undoped region. The extremely well-resolved excitonic features and corresponding continuum edges allowed us to obtain directly the exciton binding energies and cornpare the spectra with excitonic transition energies calculated taking into account the effect of strain.
PHOTOCURRENT SPECTROSCOPY OF ZN1-XCDXSE/ZNSE QUANTUM-WELLS IN P-I-N HETEROSTRUCTURES
LOMASCOLO M;RINALDI R;PRETE P;SORBA L;
1994
Abstract
Photocurrent-spectroscopy studies were performed in the 10&T & 300 K temperature range on p-i-n heterostructures grown by molecular-beam epitaxy and incorporating Zn& ,,Cd,,Se/ZnSemultiple quantum wells (with x =0.10 and 0.25) in the undoped region. The extremely well-resolved excitonic features and corresponding continuum edges allowed us to obtain directly the exciton binding energies and cornpare the spectra with excitonic transition energies calculated taking into account the effect of strain.File in questo prodotto:
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