Non-equilibrium strongly interacting quantum many-body systems

This thesis dissertation concerns the quantum dynamics of strongly interacting many-body systems under several non-equilibrium scenarios. Mimicking many real life settings, and specially some current major experiments, during most of this work we will deal with symmetrical interactions among the com...

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Autores:: Acevedo Pabón, Oscar Leonardo

Tipo de recurso:: Doctoral thesis

Fecha de publicación:: 2015

Institución:: Universidad de los Andes

Repositorio:: Séneca: repositorio Uniandes

Idioma:: eng

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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_abf2Quiroga Puello, Luisvirtual::16672-1Acevedo Pabón, Oscar Leonardod3a1cdc2-8073-4b4d-a7c4-8b323b5b48c05002018-09-27T16:35:47Z2018-09-27T16:35:47Z2015http://hdl.handle.net/1992/7668u714367.pdfinstname:Universidad de los Andesreponame:Repositorio Institucional Sénecarepourl:https://repositorio.uniandes.edu.co/This thesis dissertation concerns the quantum dynamics of strongly interacting many-body systems under several non-equilibrium scenarios. Mimicking many real life settings, and specially some current major experiments, during most of this work we will deal with symmetrical interactions among the components, which will generate collective dynamics with high degree of correlation. The focus all throughout this work has been on the posssibility of accurately control the quantum properties of the system, even at the microscopic level, by cleverly choosing macroscopic manipulation protocols. Our main results can be summarized as follows. First, we thoroughly investigate the irreversible defect formation when the Dicke model, a paradigmatic light-matter system, is made to cross its quantum phase transition (QPT). Furthermore, we have been able to explain this dynamical QPT for totally connected lattices, which had remained unresolved by well-known theories like the Kibble-Zurek mechanism. This was done by means of a broad encompassing critical function theory. Also, by going beyond semi-adiabatic evolutions, we have discovered that the dynamical QPT of the Dicke model has an intermediate regime where non-equilibrium process provide a huge enhancing of quantum properties, far beyond the capabilities of equilibrium, quasi-equilibrium, or sudden quench schemes. Finally, we provided theoretical evidence and insights for the possibilities of quantum magnetism interactions in current high precision alkaline earth atom lattice clocksDoctor en Ciencias - FísicaDoctorado134 hojasapplication/pdfengUniandesDoctorado en Ciencias - FísicaFacultad de CienciasDepartamento de Físicainstname:Universidad de los Andesreponame:Repositorio Institucional SénecaNon-equilibrium strongly interacting quantum many-body systemsTrabajo de grado - Doctoradoinfo:eu-repo/semantics/doctoralThesishttp://purl.org/coar/resource_type/c_db06http://purl.org/coar/version/c_970fb48d4fbd8a85Texthttp://purl.org/redcol/resource_type/TDTeoría cuántica - InvestigacionesTeorema adiabático - InvestigacionesTransición de fase cuánticaFísicaPublication473b402a-8853-4e07-97ac-ffb17de82e35virtual::16672-1473b402a-8853-4e07-97ac-ffb17de82e35virtual::16672-1https://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0000077194virtual::16672-1THUMBNAILu714367.pdf.jpgu714367.pdf.jpgIM Thumbnailimage/jpeg25129https://repositorio.uniandes.edu.co/bitstreams/9813c557-b633-427e-9d55-4f16d79c1f97/download60ff294be3e402d55fde6d7739f6e526MD55ORIGINALu714367.pdfapplication/pdf77849969https://repositorio.uniandes.edu.co/bitstreams/7186b2de-d622-47e7-a925-1939ac2f7310/download73656c0a0324f333e0578078ce6a1f60MD51TEXTu714367.pdf.txtu714367.pdf.txtExtracted texttext/plain341492https://repositorio.uniandes.edu.co/bitstreams/e7f1af1d-b2be-441a-8bac-0c5339cf797d/download662e5a5c094b9765a20f6bb0c1cb8e95MD541992/7668oai:repositorio.uniandes.edu.co:1992/76682024-03-13 15:47:23.882http://creativecommons.org/licenses/by-nc-sa/4.0/open.accesshttps://repositorio.uniandes.edu.coRepositorio institucional Sénecaadminrepositorio@uniandes.edu.co
dc.title.es_CO.fl_str_mv	Non-equilibrium strongly interacting quantum many-body systems
title	Non-equilibrium strongly interacting quantum many-body systems
spellingShingle	Non-equilibrium strongly interacting quantum many-body systems Teoría cuántica - Investigaciones Teorema adiabático - Investigaciones Transición de fase cuántica Física
title_short	Non-equilibrium strongly interacting quantum many-body systems
title_full	Non-equilibrium strongly interacting quantum many-body systems
title_fullStr	Non-equilibrium strongly interacting quantum many-body systems
title_full_unstemmed	Non-equilibrium strongly interacting quantum many-body systems
title_sort	Non-equilibrium strongly interacting quantum many-body systems
dc.creator.fl_str_mv	Acevedo Pabón, Oscar Leonardo
dc.contributor.advisor.none.fl_str_mv	Quiroga Puello, Luis
dc.contributor.author.none.fl_str_mv	Acevedo Pabón, Oscar Leonardo
dc.subject.keyword.es_CO.fl_str_mv	Teoría cuántica - Investigaciones Teorema adiabático - Investigaciones Transición de fase cuántica
topic	Teoría cuántica - Investigaciones Teorema adiabático - Investigaciones Transición de fase cuántica Física
dc.subject.themes.none.fl_str_mv	Física
description	This thesis dissertation concerns the quantum dynamics of strongly interacting many-body systems under several non-equilibrium scenarios. Mimicking many real life settings, and specially some current major experiments, during most of this work we will deal with symmetrical interactions among the components, which will generate collective dynamics with high degree of correlation. The focus all throughout this work has been on the posssibility of accurately control the quantum properties of the system, even at the microscopic level, by cleverly choosing macroscopic manipulation protocols. Our main results can be summarized as follows. First, we thoroughly investigate the irreversible defect formation when the Dicke model, a paradigmatic light-matter system, is made to cross its quantum phase transition (QPT). Furthermore, we have been able to explain this dynamical QPT for totally connected lattices, which had remained unresolved by well-known theories like the Kibble-Zurek mechanism. This was done by means of a broad encompassing critical function theory. Also, by going beyond semi-adiabatic evolutions, we have discovered that the dynamical QPT of the Dicke model has an intermediate regime where non-equilibrium process provide a huge enhancing of quantum properties, far beyond the capabilities of equilibrium, quasi-equilibrium, or sudden quench schemes. Finally, we provided theoretical evidence and insights for the possibilities of quantum magnetism interactions in current high precision alkaline earth atom lattice clocks
publishDate	2015
dc.date.issued.none.fl_str_mv	2015
dc.date.accessioned.none.fl_str_mv	2018-09-27T16:35:47Z
dc.date.available.none.fl_str_mv	2018-09-27T16:35:47Z
dc.type.spa.fl_str_mv	Trabajo de grado - Doctorado
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dc.identifier.reponame.spa.fl_str_mv	reponame:Repositorio Institucional Séneca
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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	134 hojas
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dc.publisher.es_CO.fl_str_mv	Uniandes
dc.publisher.program.es_CO.fl_str_mv	Doctorado 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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Non-equilibrium strongly interacting quantum many-body systems

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