MAGNETIC-FIELD-INDUCED BREAKDOWN OF QUASI-ONE-DIMENSIONAL QUANTUM-WIRE QUANTIZATION

Photoluminescence studies of In0.13Ga0.87As/GaAs modulated-barrier qua ntum wires have been performed in magnetic fields up to B = 9.0 T with varying orientations. By using high optical excitation, emission from three quantum wire subbands is observed. For fields perpendicular to the wires we observe a distinct transformation of the quantization fro m quasi-one-dimensional quantum-wire states at low fields to fully qua ntized quasi-zero-dimensional states at higher fields. This change occ urs as the Landau orbit sizes for the several subbands decrease compar ed to the lateral quantum-wire dimension. The experimental results are consistent with numerical calculations for these quantum wires in mag netic fields.