Absorption of Far-Infrared Radiation in Ge/Si Quantum Dots

Absorption of Far-Infrared Radiation in Ge/Si Quantum Dots

The experimental and theoretical results of studies of optical absorption in doped Ge/Si quantumdot structures in the far-infrared region, corresponding to the energies of transitions of holes from the ground state to the lowest excited size-quantization state, are reported. An analytical theory of...

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Veröffentlicht in:Semiconductors (Woodbury, N.Y.) N.Y.), 2018-01, Vol.52 (1), p.59-63
Hauptverfasser: Sofronov, A. N., Balagula, R. M., Firsov, D. A., Vorobjev, L. E., Tonkikh, A. A., Sarkisyan, H. A., Hayrapetyan, D. B., Petrosyan, L. S., Kazaryan, E. M.
Format: Artikel
Sprache:eng
Schlagworte:
ABSORPTION
ADIABATIC APPROXIMATION
Adiabatic flow
DOPED MATERIALS
FAR INFRARED RADIATION
GERMANIUM
GROUND STATES
Low-Dimensional Systems
Magnetic Materials
Magnetism
MATERIALS SCIENCE
Measurement
NUCLEAR MAGNETIC RESONANCE
PAIRING INTERACTIONS
Physics
Physics and Astronomy
QUANTUM DOTS
Quantum Phenomena
Radiation (Physics)
Semiconductor Structures
Silicon
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Beschreibung
Zusammenfassung:The experimental and theoretical results of studies of optical absorption in doped Ge/Si quantumdot structures in the far-infrared region, corresponding to the energies of transitions of holes from the ground state to the lowest excited size-quantization state, are reported. An analytical theory of the size quantization of holes in a lens-shaped quantum dot is developed in the context of the adiabatic approximation with consideration for pair Coulomb interaction. It is shown that the interaction has no effect on the frequencies of lower interlevel resonances. This fact is representative of generalized Kohn’s theorem satisfied due to the specific geometric shape of the quantum dot. The experimental and theoretical values of the transition energies are in good agreement.
ISSN:1063-7826
1090-6479
DOI:10.1134/S1063782618010220