Fine structure of charged and neutral excitons in InAs-(formula presented) quantum dots

J. J. Finley; D. J. Mowbray; M. S. Skolnick; A. D. Ashmore; C. Baker; A. F.G. Monte; M. Hopkinson

doi:10.1103/PhysRevB.66.153316

Fine structure of charged and neutral excitons in InAs-(formula presented) quantum dots

J. J. Finley, D. J. Mowbray, M. S. Skolnick, A. D. Ashmore, C. Baker, A. F.G. Monte, M. Hopkinson

University of Sheffield

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Photoluminescence spectra from single self-assembled InAs quantum dots embedded in an (formula presented) matrix are reported. The spectra consist of a higher-energy linearly polarized doublet, with large splitting of the order of 1 meV, and a lower-energy unpolarized line. The polarized lines are explained in terms of exciton recombination at asymmetric dots, with the splitting due to the anisotropic exchange interaction. The lower-energy unsplit, unpolarized line is ascribed to recombination at the same dots but in the presence of an excess charge, which results in zero net electron spin and hence quenching of the exchange interaction. The conclusions are fully supported by magneto-optical investigations.

Original language	English
Pages (from-to)	1-4
Number of pages	4
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	66
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.66.153316
State	Published - 2002
Externally published	Yes

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title = "Fine structure of charged and neutral excitons in InAs-(formula presented) quantum dots",

abstract = "Photoluminescence spectra from single self-assembled InAs quantum dots embedded in an (formula presented) matrix are reported. The spectra consist of a higher-energy linearly polarized doublet, with large splitting of the order of 1 meV, and a lower-energy unpolarized line. The polarized lines are explained in terms of exciton recombination at asymmetric dots, with the splitting due to the anisotropic exchange interaction. The lower-energy unsplit, unpolarized line is ascribed to recombination at the same dots but in the presence of an excess charge, which results in zero net electron spin and hence quenching of the exchange interaction. The conclusions are fully supported by magneto-optical investigations.",

author = "Finley, {J. J.} and Mowbray, {D. J.} and Skolnick, {M. S.} and Ashmore, {A. D.} and C. Baker and Monte, {A. F.G.} and M. Hopkinson",

year = "2002",

doi = "10.1103/PhysRevB.66.153316",

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AU - Finley, J. J.

AU - Mowbray, D. J.

AU - Skolnick, M. S.

AU - Ashmore, A. D.

AU - Baker, C.

AU - Monte, A. F.G.

AU - Hopkinson, M.

PY - 2002

Y1 - 2002

N2 - Photoluminescence spectra from single self-assembled InAs quantum dots embedded in an (formula presented) matrix are reported. The spectra consist of a higher-energy linearly polarized doublet, with large splitting of the order of 1 meV, and a lower-energy unpolarized line. The polarized lines are explained in terms of exciton recombination at asymmetric dots, with the splitting due to the anisotropic exchange interaction. The lower-energy unsplit, unpolarized line is ascribed to recombination at the same dots but in the presence of an excess charge, which results in zero net electron spin and hence quenching of the exchange interaction. The conclusions are fully supported by magneto-optical investigations.

AB - Photoluminescence spectra from single self-assembled InAs quantum dots embedded in an (formula presented) matrix are reported. The spectra consist of a higher-energy linearly polarized doublet, with large splitting of the order of 1 meV, and a lower-energy unpolarized line. The polarized lines are explained in terms of exciton recombination at asymmetric dots, with the splitting due to the anisotropic exchange interaction. The lower-energy unsplit, unpolarized line is ascribed to recombination at the same dots but in the presence of an excess charge, which results in zero net electron spin and hence quenching of the exchange interaction. The conclusions are fully supported by magneto-optical investigations.

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 15

ER -

Fine structure of charged and neutral excitons in InAs-(formula presented) quantum dots

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