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@article{1836537,
author = {Steindl, Petr and Klenovský, Petr},
article_number = {4},
doi = {http://dx.doi.org/10.3390/nano12040719},
keywords = {electric dipole; quantum dots; InGaAs; k·p method; electronic structure},
language = {eng},
issn = {2079-4991},
journal = {Nanomaterials},
title = {Dimension-Dependent Phenomenological Model of Excitonic Electric Dipole in InGaAs Quantum Dots},
url = {https://www.mdpi.com/2079-4991/12/4/719/},
volume = {12},
year = {2022}
}
TY - JOUR
ID - 1836537
AU - Steindl, Petr - Klenovský, Petr
PY - 2022
TI - Dimension-Dependent Phenomenological Model of Excitonic Electric Dipole in InGaAs Quantum Dots
JF - Nanomaterials
VL - 12
IS - 4
SP - 1-6
EP - 1-6
PB - MDPI
SN - 20794991
KW - electric dipole
KW - quantum dots
KW - InGaAs
KW - k·p method
KW - electronic structure
UR - https://www.mdpi.com/2079-4991/12/4/719/
N2 - Permanent electric dipole is a key property for effective control of semiconductor quantum-dot-based sources of quantum light. For theoretical prediction of that, complex geometry-dependent quantum simulations are necessary. Here, we use k⋅p simulations of exciton transition in InGaAs quantum dots to derive a simple geometry-dependent analytical model of dipole. Our model, discussed here, enables reasonably good estimation of the electric dipole, caused in quantum dot by the elastic strain, including an externally induced one. Due to its apparent simplicity, not necessitating elaborate and time-consuming simulations, it might after experimental verification serve as a preferred choice for experimentalists enabling them to make quick estimates of built-in and induced electric dipole in quantum dots.
ER -
STEINDL, Petr a Petr KLENOVSKÝ. Dimension-Dependent Phenomenological Model of Excitonic Electric Dipole in InGaAs Quantum Dots. \textit{Nanomaterials}. MDPI, 2022, roč.~12, č.~4, s.~1-6. ISSN~2079-4991. Dostupné z: https://dx.doi.org/10.3390/nano12040719.
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