Nonlinear optical properties of an exciton in a spherical quantum dot

We study the nonlinear optical properties of an exciton confined in a quantum dot and placedin an uniform static electric field. The exciton is confined using a parabolic potential. The electric field is parallel to thez-axis of the quantum dot, providing the asymmetry needed toget nonlinear optical...

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Autores:: Flórez Gutiérrez, Jefferson

Tipo de recurso:

Fecha de publicación:: 2011

Institución:: Universidad de los Andes

Repositorio:: Séneca: repositorio Uniandes

Idioma:: eng

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dc.title.es_CO.fl_str_mv	Nonlinear optical properties of an exciton in a spherical quantum dot
title	Nonlinear optical properties of an exciton in a spherical quantum dot
spellingShingle	Nonlinear optical properties of an exciton in a spherical quantum dot Teoría cuántica - Investigaciones Teoría del excitón - Investigaciones Optica no lineal - Investigaciones Física
title_short	Nonlinear optical properties of an exciton in a spherical quantum dot
title_full	Nonlinear optical properties of an exciton in a spherical quantum dot
title_fullStr	Nonlinear optical properties of an exciton in a spherical quantum dot
title_full_unstemmed	Nonlinear optical properties of an exciton in a spherical quantum dot
title_sort	Nonlinear optical properties of an exciton in a spherical quantum dot
dc.creator.fl_str_mv	Flórez Gutiérrez, Jefferson
dc.contributor.advisor.none.fl_str_mv	Camacho Beltrán, Angela Stella
dc.contributor.author.none.fl_str_mv	Flórez Gutiérrez, Jefferson
dc.subject.keyword.es_CO.fl_str_mv	Teoría cuántica - Investigaciones Teoría del excitón - Investigaciones Optica no lineal - Investigaciones
topic	Teoría cuántica - Investigaciones Teoría del excitón - Investigaciones Optica no lineal - Investigaciones Física
dc.subject.themes.none.fl_str_mv	Física
description	We study the nonlinear optical properties of an exciton confined in a quantum dot and placedin an uniform static electric field. The exciton is confined using a parabolic potential. The electric field is parallel to thez-axis of the quantum dot, providing the asymmetry needed toget nonlinear optical phenomena. Within the effective-mass approach, we write the Hamiltonian of the exciton in terms of the center-of-mass and the relative coordinate, obtaining two separated Hamiltonians. The center-of-mass motion is a harmonic oscillator, while the relative motion includes both a parabolic and a Coulomb potential from the electron-hole electrostatic interaction, so that this Hamiltonian is unsolvable analytically. In order to solve approximately the relative Hamiltonian, we treat perturbatively the Coulomb potential in the so-called strong-confinement regime, where the matrix elements of this interaction are much smaller than the unperturbed energies. Thus we analyze to first order the energy corrections to the ground state and the triply degenerate first excited states. We obtain that the corrections to the eigenvalues are only reliable in the strong regime, which in terms of the QD characteristic sizes means that they must be much smaller than 18 nm forGaAs/AlGaAs QDs. These sizes are reduced even more when the electric field is introduced. To obtain results for larger quantum dots, from a few to tens of nanometers, we solve numerically the relative Hamiltonian in the intermediate regime using a finite elements method. In this regime the Coulomb interaction and the confinement potential are taken exactly. As an interesting result, we obtain that the Eigen functions are not only shifted in the opposite direction of the electric field, but also they are elongated. Both effects, the shift and the elongation, enhance the asymmetry of the QD compared with the results obtained in the strong regime where the Eigen functions are only shifted. With the numerical results, we compute the nonlinear optical rectification susceptibility as well as the linear and nonlinear absorption coefficient and refractive index changes as a function of the incident photon energy. The main result is that the nonlinear optical proper-ties of the QD are improved in the intermediate regime as a straightforward consequence of the enhanced asymmetry. We also find that the nonlinear optical coefficients exhibit a wide spectrum of behaviors, such as a sign inversion. This fact offers the possibility of tuning the confinement energy (or the size) of a QD to obtain the desirable optical properties.
publishDate	2011
dc.date.issued.none.fl_str_mv	2011
dc.date.accessioned.none.fl_str_mv	2018-09-28T07:57:49Z
dc.date.available.none.fl_str_mv	2018-09-28T07:57:49Z
dc.type.spa.fl_str_mv	Trabajo de grado - Maestría
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dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/1992/11441
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url	http://hdl.handle.net/1992/11441
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dc.language.iso.es_CO.fl_str_mv	eng
language	eng
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dc.format.extent.es_CO.fl_str_mv	45 hojas
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dc.publisher.es_CO.fl_str_mv	Uniandes
dc.publisher.program.es_CO.fl_str_mv	Maestría en Ciencias - Física
dc.publisher.faculty.es_CO.fl_str_mv	Facultad de Ciencias
dc.publisher.department.es_CO.fl_str_mv	Departamento de Física
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spelling	Al consultar y hacer uso de este recurso, está aceptando las condiciones de uso establecidas por los autores.http://creativecommons.org/licenses/by-nc-sa/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Camacho Beltrán, Angela Stella756bf3d4-dfd0-4ea2-8209-7c16ff65ef46600Flórez Gutiérrez, Jefferson164fc2a5-7b16-42b4-ac68-700c41e747486002018-09-28T07:57:49Z2018-09-28T07:57:49Z2011http://hdl.handle.net/1992/11441u470598.pdfinstname:Universidad de los Andesreponame:Repositorio Institucional Sénecarepourl:https://repositorio.uniandes.edu.co/We study the nonlinear optical properties of an exciton confined in a quantum dot and placedin an uniform static electric field. The exciton is confined using a parabolic potential. The electric field is parallel to thez-axis of the quantum dot, providing the asymmetry needed toget nonlinear optical phenomena. Within the effective-mass approach, we write the Hamiltonian of the exciton in terms of the center-of-mass and the relative coordinate, obtaining two separated Hamiltonians. The center-of-mass motion is a harmonic oscillator, while the relative motion includes both a parabolic and a Coulomb potential from the electron-hole electrostatic interaction, so that this Hamiltonian is unsolvable analytically. In order to solve approximately the relative Hamiltonian, we treat perturbatively the Coulomb potential in the so-called strong-confinement regime, where the matrix elements of this interaction are much smaller than the unperturbed energies. Thus we analyze to first order the energy corrections to the ground state and the triply degenerate first excited states. We obtain that the corrections to the eigenvalues are only reliable in the strong regime, which in terms of the QD characteristic sizes means that they must be much smaller than 18 nm forGaAs/AlGaAs QDs. These sizes are reduced even more when the electric field is introduced. To obtain results for larger quantum dots, from a few to tens of nanometers, we solve numerically the relative Hamiltonian in the intermediate regime using a finite elements method. In this regime the Coulomb interaction and the confinement potential are taken exactly. As an interesting result, we obtain that the Eigen functions are not only shifted in the opposite direction of the electric field, but also they are elongated. Both effects, the shift and the elongation, enhance the asymmetry of the QD compared with the results obtained in the strong regime where the Eigen functions are only shifted. With the numerical results, we compute the nonlinear optical rectification susceptibility as well as the linear and nonlinear absorption coefficient and refractive index changes as a function of the incident photon energy. The main result is that the nonlinear optical proper-ties of the QD are improved in the intermediate regime as a straightforward consequence of the enhanced asymmetry. We also find that the nonlinear optical coefficients exhibit a wide spectrum of behaviors, such as a sign inversion. This fact offers the possibility of tuning the confinement energy (or the size) of a QD to obtain the desirable optical properties.Magíster en FísicaMaestría45 hojasapplication/pdfengUniandesMaestría en Ciencias - FísicaFacultad de CienciasDepartamento de Físicainstname:Universidad de los Andesreponame:Repositorio Institucional SénecaNonlinear optical properties of an exciton in a spherical quantum dotTrabajo de grado - Maestríainfo:eu-repo/semantics/masterThesishttp://purl.org/coar/version/c_970fb48d4fbd8a85Texthttp://purl.org/redcol/resource_type/TMTeoría cuántica - InvestigacionesTeoría del excitón - InvestigacionesOptica no lineal - InvestigacionesFísicaPublicationORIGINALu470598.pdfapplication/pdf1867600https://repositorio.uniandes.edu.co/bitstreams/a1dba3c3-99e8-4638-8202-1e67a768570e/download065bf66ff5e19349bdaa034184749473MD51THUMBNAILu470598.pdf.jpgu470598.pdf.jpgIM Thumbnailimage/jpeg8249https://repositorio.uniandes.edu.co/bitstreams/9bed931f-0f06-469f-8ca8-d473a77cb29f/download5bca0564005be66e04330ff46e09d5a9MD55TEXTu470598.pdf.txtu470598.pdf.txtExtracted texttext/plain70888https://repositorio.uniandes.edu.co/bitstreams/68b8486f-f417-49db-96a5-33fbe8aaa18c/downloadf85dfb10d3e201d752cb6e366c7ea137MD541992/11441oai:repositorio.uniandes.edu.co:1992/114412023-10-10 18:06:43.998http://creativecommons.org/licenses/by-nc-sa/4.0/open.accesshttps://repositorio.uniandes.edu.coRepositorio institucional Sénecaadminrepositorio@uniandes.edu.co

Nonlinear optical properties of an exciton in a spherical quantum dot

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