Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots

We have study the heavy-hole exciton states in GaSb–GaInAsSb–GaSb type-I spherical Quantum Dots, using temperature-dependent static dielectric constant and electron affinity, with a finite height potential barrier, as a function of the quantum dot radius for several values of Indium concentration. O...

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Fecha de publicación:
2010
Institución:
Ministerio de Ciencia, Tecnología e Innovación
Repositorio:
Repositorio Minciencias
Idioma:
eng
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oai:repositorio.minciencias.gov.co:20.500.14143/18427
Acceso en línea:
https://repositorio.minciencias.gov.co/handle/20.500.14143/18427
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Termodinámica
Campos electromagnéticos
Energía mecánica
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http://purl.org/coar/access_right/c_f1cf
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spelling Colombia2018-08-02T22:34:21Z2018-08-02T22:34:21Z2010-06info:eu-repo/date/embargoEnd/2024-01-311386-9477https://repositorio.minciencias.gov.co/handle/20.500.14143/1842710.1016/j.physe.2010.06.020We have study the heavy-hole exciton states in GaSb–GaInAsSb–GaSb type-I spherical Quantum Dots, using temperature-dependent static dielectric constant and electron affinity, with a finite height potential barrier, as a function of the quantum dot radius for several values of Indium concentration. Our calculations have been worked out using interpolating methods to find the temperature and Indium concentration dependence of both the dielectric constant and electron affinity, in order to determine the conduction and valence band-offsets in GaSb–GaInAsSb–GaSb heterostructure by application of the Electron Affinity Rule. We have calculated the exciton binding energy and the corresponding transition energy from the exciton ground state to the heavy-hole level, using a variational procedure within the effective-mass approximation. We have found that the binding energy of the heavy-hole exciton presents changes due to the temperature dependence of the electron affinity and static dielectric constant. However, our results for the transition energy from the exciton ground state to the heavy-hole level coincide with those reported in a previous theoretical work, where we had found a very good agreement with photoluminescence and photoreflectance experimental studies at T=12 K in Ga1-xInxAsySb1-y films grown over GaSb substrates by liquid phase epitaxyDepartamento Administrativo de Ciencia, Tecnología e Innovación [CO] Colciencias1106-452-21296Control cuántico de las propiedades electrónicas y de espín en nanoestructuras inorgánicas, orgánicas y biológicasnopdf8 páginasengControl cuántico de las propiedades electrónicas y de espín en nanoestructuras inorgánicas, orgánicas y biológicas. La publicación completa está disponible en : <a href="http://repositorio.colciencias.gov.co:80/handle/11146/18424" target="blank">http://repositorio.colciencias.gov.co:80/handle/11146/18424</a>Physica E: Low-dimensional Systems and Nanostructures Vol 43, Issue 1, November 2010, pp. 76-80Contiene 26 referencias bibliográficas. Véase el documento adjuntoStudy of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dotsArtículo científicoinfo:eu-repo/semantics/articlehttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_2df8fbb1Administradores de ciencia y tecnologíaInvestigadoresTermodinámicaCampos electromagnéticosEnergía mecánicahttp://purl.org/coar/access_right/c_f1cfSánchez Cano, R.Porras Montenegro, NelsonUniversidad del Valle, Univallenelmonte@univalle.edu.coPrograma nacional de ciencias básicasComunidad científica colombiana0284-2008Artículos de investigaciónPublicationLICENSElicense.txtlicense.txttext/plain; charset=utf-81748https://repositorio.minciencias.gov.co/bitstreams/c67028af-eb70-4db6-ba17-816d7e4e82bd/download8a4605be74aa9ea9d79846c1fba20a33MD52ORIGINAL1-1-1-5-art.pdf1-1-1-5-art.pdfArticulo de Revista Physica E: Low-dimensional Systems and Nanostructuresapplication/pdf2050273https://repositorio.minciencias.gov.co/bitstreams/7ea2da29-f47e-49c1-9cbd-302def9ae863/download897e4f67013ba55d8336b436fb2d9d8dMD51TEXT1-1-1-5-art.pdf.txt1-1-1-5-art.pdf.txtExtracted texttext/plain2https://repositorio.minciencias.gov.co/bitstreams/37248256-7f17-48f3-8749-b740506325c6/downloade1c06d85ae7b8b032bef47e42e4c08f9MD55THUMBNAIL1-1-1-5-art.pdf.jpg1-1-1-5-art.pdf.jpgGenerated Thumbnailimage/jpeg18632https://repositorio.minciencias.gov.co/bitstreams/45626a64-445a-49db-8fc2-09ee15d3a45d/download3c778709f1a3733b6e37a1ac33e03160MD5620.500.14143/18427oai:repositorio.minciencias.gov.co:20.500.14143/184272023-11-29 17:46:22.674restrictedhttps://repositorio.minciencias.gov.coRepositorio Institucional de Mincienciascendoc@minciencias.gov.co
dc.title.es_CO.fl_str_mv Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
title Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
spellingShingle Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
Termodinámica
Campos electromagnéticos
Energía mecánica
title_short Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
title_full Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
title_fullStr Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
title_full_unstemmed Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
title_sort Study of temperature and indium concentration-dependent dielectric constant and electron affinity effects on the exciton optical transition and binding energy in spherical GaSb–Ga1−xInxAsySb1−y–GaSb quantum dots
dc.subject.spines.none.fl_str_mv Termodinámica
Campos electromagnéticos
Energía mecánica
topic Termodinámica
Campos electromagnéticos
Energía mecánica
description We have study the heavy-hole exciton states in GaSb–GaInAsSb–GaSb type-I spherical Quantum Dots, using temperature-dependent static dielectric constant and electron affinity, with a finite height potential barrier, as a function of the quantum dot radius for several values of Indium concentration. Our calculations have been worked out using interpolating methods to find the temperature and Indium concentration dependence of both the dielectric constant and electron affinity, in order to determine the conduction and valence band-offsets in GaSb–GaInAsSb–GaSb heterostructure by application of the Electron Affinity Rule. We have calculated the exciton binding energy and the corresponding transition energy from the exciton ground state to the heavy-hole level, using a variational procedure within the effective-mass approximation. We have found that the binding energy of the heavy-hole exciton presents changes due to the temperature dependence of the electron affinity and static dielectric constant. However, our results for the transition energy from the exciton ground state to the heavy-hole level coincide with those reported in a previous theoretical work, where we had found a very good agreement with photoluminescence and photoreflectance experimental studies at T=12 K in Ga1-xInxAsySb1-y films grown over GaSb substrates by liquid phase epitaxy
publishDate 2010
dc.date.issued.none.fl_str_mv 2010-06
dc.date.accessioned.none.fl_str_mv 2018-08-02T22:34:21Z
dc.date.available.none.fl_str_mv 2018-08-02T22:34:21Z
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dc.type.es_CO.fl_str_mv Artículo científico
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dc.type.driver.es_CO.fl_str_mv info:eu-repo/semantics/article
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dc.identifier.doi.none.fl_str_mv 10.1016/j.physe.2010.06.020
identifier_str_mv 1386-9477
10.1016/j.physe.2010.06.020
url https://repositorio.minciencias.gov.co/handle/20.500.14143/18427
dc.language.iso.es_CO.fl_str_mv eng
language eng
dc.relation.ispartof.none.fl_str_mv Control cuántico de las propiedades electrónicas y de espín en nanoestructuras inorgánicas, orgánicas y biológicas. La publicación completa está disponible en : <a href="http://repositorio.colciencias.gov.co:80/handle/11146/18424" target="blank">http://repositorio.colciencias.gov.co:80/handle/11146/18424</a>
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dc.format.es_CO.fl_str_mv pdf
dc.format.extent.es_CO.fl_str_mv 8 páginas
dc.coverage.spatial.es_CO.fl_str_mv Colombia
dc.source.es_CO.fl_str_mv Physica E: Low-dimensional Systems and Nanostructures Vol 43, Issue 1, November 2010, pp. 76-80
institution Ministerio de Ciencia, Tecnología e Innovación
dc.source.bibliographicCitation.es_CO.fl_str_mv Contiene 26 referencias bibliográficas. Véase el documento adjunto
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