Magneto-optical properties of single site-controlled InGaAsN quantum wires grown on prepatterned GaAs substrates

Marco Felici,Peter C M Christianen,Giovanna Lavenuta,Romain Carron,Dan Fekete,Giorgio Pettinari,Jan C Maan,Pascal Gallo,Eli Kapon,Benjamin Dwir,Mario Capizzi,Alok Rudra,Elena Tartaglini,Antonio Polimeni

doi:10.1103/physrevb.85.155319

Magneto-optical properties of single site-controlled InGaAsN quantum wires grown on prepatterned GaAs substrates

Marco Felici, Peter C M Christianen + Show 12 more

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https://doi.org/10.1103/physrevb.85.155319

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Journal: Physical review. B	Publication Date: Apr 23, 2012
Citations: 9

Affiliation: Sapienza University of Rome, École Polytechnique Fédérale de Lausanne, Radboud University Nijmegen, Technion – Israel Institute of Technology, University of Nottingham

#Quantum Wires #Prepatterned GaAs Substrates + Show 8 more

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Abstract

The properties of single site-controlled InGaAsN quantum wires (QWRs)—both untreated and irradiated with atomic hydrogen—are probed by micro-magnetophotoluminescence spectroscopy. The strong anisotropy of the diamagnetic shift measured for different orientations of the applied magnetic field confirms the one-dimensional nature of the QWR carrier wave function. In addition, the strain reduction associated with N incorporation is found to promote a larger indium intake in the QWR, enabling the realization of site-controlled QWRs emitting at long (1.3 μm), technologically relevant wavelengths.

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