HOSPODKOVÁ, Alice, Vlastimil KŘÁPEK, Karla KULDOVÁ and Josef HUMLÍČEK. Photoluminescence and magnetophotoluminescence of vertically stacked InAs/GaAs quantum dot structures. Physica E. Amsterdam: Elsevier Science, 2007, vol. 36, No 1, p. 106-113. ISSN 1386-9477.
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Basic information
Original name Photoluminescence and magnetophotoluminescence of vertically stacked InAs/GaAs quantum dot structures
Name in Czech Fotoluminiscence a magnetofotoluminiscence vertikálně korelovaných kvantových teček InAs/GaAs
Authors HOSPODKOVÁ, Alice (203 Czech Republic), Vlastimil KŘÁPEK (203 Czech Republic), Karla KULDOVÁ (203 Czech Republic) and Josef HUMLÍČEK (203 Czech Republic, guarantor).
Edition Physica E, Amsterdam, Elsevier Science, 2007, 1386-9477.
Other information
Original language English
Type of outcome Article in a journal
Field of Study 10302 Condensed matter physics
Country of publisher Netherlands
Confidentiality degree is not subject to a state or trade secret
Impact factor Impact factor: 0.834
RIV identification code RIV/00216224:14310/07:00021888
Organization unit Faculty of Science
UT WoS 000243851800017
Keywords in English self-assembled quantum dots; photoluminescence; magnetophotoluminescence
Tags magnetophotoluminescence, PHOTOLUMINESCENCE, self-assembled quantum dots
Tags International impact, Reviewed
Changed by Changed by: prof. RNDr. Josef Humlíček, CSc., učo 307. Changed: 20/3/2008 10:14.
Abstract
We report on photoluminescence of a series of vertically stacked multilayer quantum dot structures. Our analysis of the data taken at different excitation powers and in the magnetic field up to 24T yields a useful insight into the electronic structure of the InAs/GaAs quantum dot structures. The data are compared with results of model electronic structure calculations for flat dots, including the effects of the strain field. The calculations suggest that the difference between the energies of the ground and first excited transitions is mainly determined by the lateral dimensions of the dots. A comparison of the experimental results with the theoretical ones reveals an increase of the dot dimensions (both height and diameter) and a decrease of the aspect ratio (height/diameter) with increasing number of the quantum dot layers. For seven layer samples, the wavelength of 1:3 mm has been achieved. The increase of the thickness of the spacing layers between adjacent dot layers leads to a decrease of the lateral dimensions of the dots, accompanied by an increase of the aspect ratio and of the energy separation between the ground and first excited transitions.
Abstract (in Czech)
We report on photoluminescence of a series of vertically stacked multilayer quantum dot structures. Our analysis of the data taken at different excitation powers and in the magnetic field up to 24T yields a useful insight into the electronic structure of the InAs/GaAs quantum dot structures. The data are compared with results of model electronic structure calculations for flat dots, including the effects of the strain field. The calculations suggest that the difference between the energies of the ground and first excited transitions is mainly determined by the lateral dimensions of the dots. A comparison of the experimental results with the theoretical ones reveals an increase of the dot dimensions (both height and diameter) and a decrease of the aspect ratio (height/diameter) with increasing number of the quantum dot layers. For seven layer samples, the wavelength of 1:3 mm has been achieved. The increase of the thickness of the spacing layers between adjacent dot layers leads to a decrease of the lateral dimensions of the dots, accompanied by an increase of the aspect ratio and of the energy separation between the ground and first excited transitions.
Links
MSM0021622410, plan (intention)Name: Fyzikální a chemické vlastnosti pokročilých materiálů a struktur
Investor: Ministry of Education, Youth and Sports of the CR, Physical and chemical properties of advanced materials and structures
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