Quantum wire heterostructures, such as V- and T-shaped wires, are very promising candidates for low-threshold lasing. A crucial issue is the excitonicvs. free-carrier nature of the radiative recombination. Here, we report on magnetophotoluminescence studies of GaAs and InGaAs V-shaped wires that allow to discriminate different regimes of radiative recombination
Magnetic-field effects in the luminescence of V-shaped quantum wires / Rinaldi, R.; Giugno, P. V.; Cingolani, R.; Rossi, Fausto; Molinari, E.; Ferrara, M.; Marti, U.; Martin, D.; Moriergemoud, F.; Ruterana, P.; Reinhart, F.. - In: NUOVO CIMENTO DELLA SOCIETÀ ITALIANA DI FISICA. D CONDENSED MATTER, ATOMIC, MOLECULAR AND CHEMICAL PHYSICS, BIOPHYSICS. - ISSN 0392-6737. - 17:11-12(1995), pp. 1681-1685. [10.1007/BF02457263]
Magnetic-field effects in the luminescence of V-shaped quantum wires
ROSSI, FAUSTO;
1995
Abstract
Quantum wire heterostructures, such as V- and T-shaped wires, are very promising candidates for low-threshold lasing. A crucial issue is the excitonicvs. free-carrier nature of the radiative recombination. Here, we report on magnetophotoluminescence studies of GaAs and InGaAs V-shaped wires that allow to discriminate different regimes of radiative recombinationPubblicazioni consigliate
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https://hdl.handle.net/11583/2498773
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