Polarization Spectroscopy of an Isolated Quantum Dot and an Isolated Quantum Wire

V. N. Kats; A. V. Platonov; G. E. Tsyrlin; A. D. Buravlev; A. Delga; L. Besombes; H. Mariette; V. P. Kochereshko

doi:10.1134/S1063783418120156

Polarization Spectroscopy of an Isolated Quantum Dot and an Isolated Quantum Wire

Authors: Kats V.N.¹, Platonov A.V.¹, Tsyrlin G.E.¹, Buravlev A.D.¹, Delga A.², Besombes L.², Mariette H.², Kochereshko V.P.¹
Affiliations:
1. Ioffe Institute
2. Institut Néel
Issue: Vol 60, No 12 (2018)
Pages: 2623-2627
Section: Low-Dimensional Systems
URL: https://journal-vniispk.ru/1063-7834/article/view/204637
DOI: https://doi.org/10.1134/S1063783418120156
ID: 204637

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Abstract

Photoluminescence spectra of an isolated GaAs quantum dot within an AlGaAs quantum wire are studied. The examination of behavior of spectra in a magnetic field provided an opportunity to estimate the exciton binding energy in the quantum dot, which turned out to be 10 times higher than the bulk exciton binding energy in GaAs. It is demonstrated that the signal of exciton photoluminescence from the quantum dot emitted along the nanowire axis is linearly polarized. At the same time, the photoluminescence signal propagating in the direction perpendicular to the nanowire axis is almost unpolarized. This may be attributed to the nonaxial dot positioning in the wire under a giant increase in the binding energy of an exciton affected by an image potential.

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Polarization Spectroscopy of an Isolated Quantum Dot and an Isolated Quantum Wire

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Abstract

About the authors

Supplementary files