Exciton states and interband optical transitions in wurtzite InGaN/GaN quantum dot nanowire heterostructures |
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| Authors: | Min Zhang Jun-jie Shi |
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| Affiliation: | aCollege of Physics and Electron Information, Inner Mongolia Normal University, Inner Mongolia Key Laboratory for Physics and Chemistry of Functional Materials, Hohhot 010022, People’s Republic of China;bState Key Laboratory for Mesoscopic Physics and Department of Physics, Peking University, Beijing 100871, People’s Republic of China |
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| Abstract: | Within the framework of the effective-mass approximation, the exciton states and interband optical transitions in InxGa1−xN/GaN strained quantum dot (QD) nanowire heterostructures are investigated using a variational method, in which the important built-in electric field (BEF) effects, dielectric-constant mismatch and three-dimensional confinement of the electron and hole in InxGa1−xN QDs are considered. We find that the strong BEF gives rise to an obvious reduction of the effective band gap of QDs and leads to a remarkable electron-hole spatial separation. The BEF, QD height and radius, and dielectric mismatch effects have a significant influence on exciton binding energy, electron interband optical transitions, and the exciton oscillator strength. |
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| Keywords: | InGaN quantum dot nanowire heterostructure Exciton binding energy Piezoelectricity and spontaneous polarization Optical property |
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