Ultrafast carrier dynamics of resonantly excited InAs/GaAs self-assembled quantum dots |
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Authors: | K. Kr l, P. Zdenk,Z. Kh s |
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Affiliation: | Institute of Physics, Academy of Sciences of Czech Republic, Na Slovance 2, Prague 8 18221, Czech Republic |
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Abstract: | We study theoretically the time development of electronic relaxation in quantum dots. We consider the process of relaxation of the state with an electron prepared at the beginning of relaxation in the electronic ground state. We obtain a fast (in picoseconds) increase of electronic population in the excited state. Also, we consider the process of relaxation of an electron from an excited state in the dot. Here we obtain an incomplete depopulation of the electron from the excited state. We compare these results to experiments in which a fast decrease of luminescence is reported during the first period of relaxation after resonant excitation of the ground state. We estimate numerically the role of electron–LO–phonon (Fröhlich's coupling) mechanism in these processes. We show that this effect may be attributed to the influence of multiple scattering of quantum dot electrons on LO phonons. A single-electron two-energy-level quantum dot model is used to demonstrate this effect in an isolated semiconductor quantum dot. |
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Keywords: | Quantum dots Electronic relaxation Electron– phonon interaction |
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