Piezo-electric fields and state-filling photo-luminescence in natural InP/GaInP2 Wigner molecule structures

Piezo-electric fields and state-filling photo-luminescence in natural InP/GaInP2 Wigner molecule structures

We used the measurements of the photo-luminescence spectra vs photon pumping and Coulomb blockade charge tuning together with Kelvin probe microscopy to study piezo-electric fields in self-organized InP/GaInP2 quantum dots (QDs) having a strong Wigner localization regime. These exciton/electron stat...

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Veröffentlicht in:Applied physics letters 2021-03, Vol.118 (12), Article 121101
Hauptverfasser: Mintairov, A. M., Ankundinov, A. V., Kalyuzhnyy, N. A., Lebedev, D. V., Mintairov, S. A., Pavlov, N. V., Galimov, A. I., Rakhlin, M. V., Salii, R. A., Toropov, A. A., Vlasov, A. S., Barettin, D., der Maur, M. Auf, Blundell, S. A.
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Electric fields
Electron states
Excitons
Indium phosphides
Luminescence
Photoluminescence
Physical Sciences
Physics
Physics, Applied
Quantum dots
Science & Technology
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Zusammenfassung:We used the measurements of the photo-luminescence spectra vs photon pumping and Coulomb blockade charge tuning together with Kelvin probe microscopy to study piezo-electric fields in self-organized InP/GaInP2 quantum dots (QDs) having a strong Wigner localization regime. These exciton/electron state-filling measurements together with the surface potential imaging and the band structure calculations demonstrate a piezo-electric doping and type-I optical transitions induced in these dots by an atomic ordering (AO) of GaInP2. Our results clarify a critical role of AO in the formation of natural Wigner and anyon molecules and represent an important step for realization of the topological quantum gates using these QDs.
ISSN:0003-6951
1077-3118
DOI:10.1063/5.0045925