Miniband structure and photon absorption in regimented quantum dot systems

S. Rodríguez-Bolívar; F. M. Gómez-Campos; A. Luque-Rodríguez; J. A. López-Villanueva; J. A. Jiménez-Tejada; J. E. Carceller

doi:10.1063/1.3562160

Miniband structure and photon absorption in regimented quantum dot systems

S. Rodríguez-Bolívar
, F. M. Gómez-Campos
, A. Luque-Rodríguez
, J. A. López-Villanueva
, J. A. Jiménez-Tejada
, J. E. Carceller

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

10 Citas (Scopus)

Resumen

In this paper, we investigate the physics of electronic states in cubic InAs quantum dot periodic nanostructures embedded in GaAs. This study aims to provide an understanding of the physics of these systems so that they may be used in technological applications. We have focused on the effect of dot densities and dot sizes on the material properties, evaluating the miniband structure of electron states coming from the bulk conduction band, and have calculated the intraband photon absorption coefficient for several light polarizations. Strain is included in this analysis in order to obtain the conduction band offset between the materials by solving the Pikus-Bir 88 kp Hamiltonian. We offer a comparison with approaches used by previous authors and clarify their range of validity. Finally, we draw our conclusions and propose future technological applications for these periodic arrangements.

Idioma original	Inglés
Número de artículo	074303
Publicación	Journal of Applied Physics
Volumen	109
N.º	7
DOI	https://doi.org/10.1063/1.3562160
Estado	Publicada - 1 abr. 2011
Publicado de forma externa	Sí

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title = "Miniband structure and photon absorption in regimented quantum dot systems",

abstract = "In this paper, we investigate the physics of electronic states in cubic InAs quantum dot periodic nanostructures embedded in GaAs. This study aims to provide an understanding of the physics of these systems so that they may be used in technological applications. We have focused on the effect of dot densities and dot sizes on the material properties, evaluating the miniband structure of electron states coming from the bulk conduction band, and have calculated the intraband photon absorption coefficient for several light polarizations. Strain is included in this analysis in order to obtain the conduction band offset between the materials by solving the Pikus-Bir 88 kp Hamiltonian. We offer a comparison with approaches used by previous authors and clarify their range of validity. Finally, we draw our conclusions and propose future technological applications for these periodic arrangements.",

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AU - Rodríguez-Bolívar, S.

AU - Gómez-Campos, F. M.

AU - Luque-Rodríguez, A.

AU - López-Villanueva, J. A.

AU - Jiménez-Tejada, J. A.

AU - Carceller, J. E.

PY - 2011/4/1

Y1 - 2011/4/1

N2 - In this paper, we investigate the physics of electronic states in cubic InAs quantum dot periodic nanostructures embedded in GaAs. This study aims to provide an understanding of the physics of these systems so that they may be used in technological applications. We have focused on the effect of dot densities and dot sizes on the material properties, evaluating the miniband structure of electron states coming from the bulk conduction band, and have calculated the intraband photon absorption coefficient for several light polarizations. Strain is included in this analysis in order to obtain the conduction band offset between the materials by solving the Pikus-Bir 88 kp Hamiltonian. We offer a comparison with approaches used by previous authors and clarify their range of validity. Finally, we draw our conclusions and propose future technological applications for these periodic arrangements.

AB - In this paper, we investigate the physics of electronic states in cubic InAs quantum dot periodic nanostructures embedded in GaAs. This study aims to provide an understanding of the physics of these systems so that they may be used in technological applications. We have focused on the effect of dot densities and dot sizes on the material properties, evaluating the miniband structure of electron states coming from the bulk conduction band, and have calculated the intraband photon absorption coefficient for several light polarizations. Strain is included in this analysis in order to obtain the conduction band offset between the materials by solving the Pikus-Bir 88 kp Hamiltonian. We offer a comparison with approaches used by previous authors and clarify their range of validity. Finally, we draw our conclusions and propose future technological applications for these periodic arrangements.

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JO - Journal of Applied Physics

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Miniband structure and photon absorption in regimented quantum dot systems

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