Topological properties of Hermitian and non-Hermitian periodic systems

ABSTRACT: In this work we study some topological properties of Hermitian and non-Hermitian periodic systems with physical importance. For the Hermitian system, we have studied the behavior of 1, 2 and 3 layers of graphene aligned on boron nitride (BN) substrate to analyze how the effective moiré pot...

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Autores:: Galeano González, David Andrés

Tipo de recurso:: Doctoral thesis

Fecha de publicación:: 2021

Institución:: Universidad de Antioquia

Repositorio:: Repositorio UdeA

Idioma:: eng

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dc.title.spa.fl_str_mv	Topological properties of Hermitian and non-Hermitian periodic systems
title	Topological properties of Hermitian and non-Hermitian periodic systems
spellingShingle	Topological properties of Hermitian and non-Hermitian periodic systems Topology Graphene Hermitian operators Topología Patrón de muaré Modelo Su-Schrieffer-Heeger (SSH) Circuito RLC Circuitos topoeléctricos Operadores No-Hermitianos http://id.loc.gov/authorities/subjects/sh85136089 http://id.loc.gov/authorities/subjects/sh2008005807 http://id.loc.gov/authorities/subjects/sh97004967
title_short	Topological properties of Hermitian and non-Hermitian periodic systems
title_full	Topological properties of Hermitian and non-Hermitian periodic systems
title_fullStr	Topological properties of Hermitian and non-Hermitian periodic systems
title_full_unstemmed	Topological properties of Hermitian and non-Hermitian periodic systems
title_sort	Topological properties of Hermitian and non-Hermitian periodic systems
dc.creator.fl_str_mv	Galeano González, David Andrés
dc.contributor.advisor.none.fl_str_mv	Mahecha Gómez, Jorge Eduardo
dc.contributor.author.none.fl_str_mv	Galeano González, David Andrés
dc.contributor.researchgroup.spa.fl_str_mv	Grupo de Física Atómica y Molecular
dc.subject.lcsh.none.fl_str_mv	Topology Graphene Hermitian operators
topic	Topology Graphene Hermitian operators Topología Patrón de muaré Modelo Su-Schrieffer-Heeger (SSH) Circuito RLC Circuitos topoeléctricos Operadores No-Hermitianos http://id.loc.gov/authorities/subjects/sh85136089 http://id.loc.gov/authorities/subjects/sh2008005807 http://id.loc.gov/authorities/subjects/sh97004967
dc.subject.lemb.none.fl_str_mv	Topología
dc.subject.proposal.spa.fl_str_mv	Patrón de muaré Modelo Su-Schrieffer-Heeger (SSH) Circuito RLC Circuitos topoeléctricos Operadores No-Hermitianos
dc.subject.lcshuri.none.fl_str_mv	http://id.loc.gov/authorities/subjects/sh85136089 http://id.loc.gov/authorities/subjects/sh2008005807 http://id.loc.gov/authorities/subjects/sh97004967
description	ABSTRACT: In this work we study some topological properties of Hermitian and non-Hermitian periodic systems with physical importance. For the Hermitian system, we have studied the behavior of 1, 2 and 3 layers of graphene aligned on boron nitride (BN) substrate to analyze how the effective moiré potential and the number of graphene layers affects the Chern number. Our contribution focuses on the calculation of the Chern diagrams of N-layer (N = 1, 2, 3) ABC graphene boron nitride moire superlattices, the respective analysis of the potential function and the rol of the pseudomagnetic moiré vector potential to try to find a theoretical explanation for recent experimental results. It is important to emphasize that our calculations confirm recent results, where the maximum magnitude of the topological invariant (Chern number) coincides with the number of graphene layers. However, the effective moiré potential in the low energy model allows Chern number magnitudes smaller than the number of layers. The Chern diagrams that we calculated have practical importance, because prior to any experimental implementation, the topological properties of the material can be known. This issue is relevant to applications on nano-devices. On the other hand, the non-Hermitian system that we have studied is new type of Su-SchriefferHeeger (SSH) model with complex hoppings, where we propose its correspondence with an electrical circuit model to represent the topological behavior and some quantum properties. Our model can be configured so that the hoppings between sites of the chain are independently parameterized and related to RLC circuit elements, which makes it useful to find and analyze topological properties. Our non-Hermitian circuit model opens the door to new topological material designs based on RLC circuit components.
publishDate	2021
dc.date.accessioned.none.fl_str_mv	2021-12-17T15:38:54Z
dc.date.available.none.fl_str_mv	2021-12-17T15:38:54Z
dc.date.issued.none.fl_str_mv	2021
dc.type.spa.fl_str_mv	Tesis/Trabajo de grado - Monografía - Doctorado
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dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/10495/25158
url	http://hdl.handle.net/10495/25158
dc.language.iso.spa.fl_str_mv	eng
language	eng
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dc.format.extent.spa.fl_str_mv	112
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dc.publisher.spa.fl_str_mv	Universidad de Antioquia
dc.publisher.place.spa.fl_str_mv	Medellín, Colombia
dc.publisher.faculty.spa.fl_str_mv	Facultad de Ciencias Exactas y Naturales. Doctorado en Física
institution	Universidad de Antioquia
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spelling	Mahecha Gómez, Jorge EduardoGaleano González, David AndrésGrupo de Física Atómica y Molecular2021-12-17T15:38:54Z2021-12-17T15:38:54Z2021http://hdl.handle.net/10495/25158ABSTRACT: In this work we study some topological properties of Hermitian and non-Hermitian periodic systems with physical importance. For the Hermitian system, we have studied the behavior of 1, 2 and 3 layers of graphene aligned on boron nitride (BN) substrate to analyze how the effective moiré potential and the number of graphene layers affects the Chern number. Our contribution focuses on the calculation of the Chern diagrams of N-layer (N = 1, 2, 3) ABC graphene boron nitride moire superlattices, the respective analysis of the potential function and the rol of the pseudomagnetic moiré vector potential to try to find a theoretical explanation for recent experimental results. It is important to emphasize that our calculations confirm recent results, where the maximum magnitude of the topological invariant (Chern number) coincides with the number of graphene layers. However, the effective moiré potential in the low energy model allows Chern number magnitudes smaller than the number of layers. The Chern diagrams that we calculated have practical importance, because prior to any experimental implementation, the topological properties of the material can be known. This issue is relevant to applications on nano-devices. On the other hand, the non-Hermitian system that we have studied is new type of Su-SchriefferHeeger (SSH) model with complex hoppings, where we propose its correspondence with an electrical circuit model to represent the topological behavior and some quantum properties. Our model can be configured so that the hoppings between sites of the chain are independently parameterized and related to RLC circuit elements, which makes it useful to find and analyze topological properties. Our non-Hermitian circuit model opens the door to new topological material designs based on RLC circuit components.DoctoradoDoctor en Física112application/pdfengUniversidad de AntioquiaMedellín, ColombiaFacultad de Ciencias Exactas y Naturales. Doctorado en Físicahttps://creativecommons.org/licenses/by-nc-sa/4.0/http://creativecommons.org/licenses/by-nc-sa/2.5/co/info:eu-repo/semantics/openAccessAtribución-NoComercial-CompartirIgual 2.5 Colombia (CC BY-NC-SA 2.5 CO)http://purl.org/coar/access_right/c_abf2TopologyGrapheneHermitian operatorsTopologíaPatrón de muaréModelo Su-Schrieffer-Heeger (SSH)Circuito RLCCircuitos topoeléctricosOperadores No-Hermitianoshttp://id.loc.gov/authorities/subjects/sh85136089http://id.loc.gov/authorities/subjects/sh2008005807http://id.loc.gov/authorities/subjects/sh97004967Topological properties of Hermitian and non-Hermitian periodic systemsTesis/Trabajo de grado - Monografía - Doctoradohttp://purl.org/coar/resource_type/c_db06https://purl.org/redcol/resource_type/TDhttp://purl.org/coar/version/c_b1a7d7d4d402bcceinfo:eu-repo/semantics/doctoralThesisinfo:eu-repo/semantics/draftPublicationORIGINALGaleanoDavid_2021_TopologicalPropertiesHermitian.pdfGaleanoDavid_2021_TopologicalPropertiesHermitian.pdfTesis doctoralapplication/pdf6714333https://bibliotecadigital.udea.edu.co/bitstreams/92001375-a8dd-4d49-ae96-6d6637cfb91b/downloadf36b9903e24baadebb0cd273fbc67784MD51trueAnonymousREADLICENSElicense.txtlicense.txttext/plain; charset=utf-81748https://bibliotecadigital.udea.edu.co/bitstreams/a9a80647-4fc4-41b4-98d9-55f98e7767c7/download8a4605be74aa9ea9d79846c1fba20a33MD52falseAnonymousREADTEXTGaleanoDavid_2021_TopologicalPropertiesHermitian.pdf.txtGaleanoDavid_2021_TopologicalPropertiesHermitian.pdf.txtExtracted texttext/plain102368https://bibliotecadigital.udea.edu.co/bitstreams/28cacb99-dc80-4acd-bf07-4a30eeb9d07c/download8ceb235628fba6117e488e2da4a12243MD55falseAnonymousREADTHUMBNAILGaleanoDavid_2021_TopologicalPropertiesHermitian.pdf.jpgGaleanoDavid_2021_TopologicalPropertiesHermitian.pdf.jpgGenerated Thumbnailimage/jpeg8694https://bibliotecadigital.udea.edu.co/bitstreams/64a285a0-cde0-4d99-afa4-2f135717d9b0/download391c22b4cf304deaf136660b07644f73MD56falseAnonymousREAD10495/25158oai:bibliotecadigital.udea.edu.co:10495/251582025-03-26 17:42:37.654https://creativecommons.org/licenses/by-nc-sa/4.0/open.accesshttps://bibliotecadigital.udea.edu.coRepositorio Institucional de la Universidad de Antioquiaaplicacionbibliotecadigitalbiblioteca@udea.edu.coTk9URTogUExBQ0UgWU9VUiBPV04gTElDRU5TRSBIRVJFClRoaXMgc2FtcGxlIGxpY2Vuc2UgaXMgcHJvdmlkZWQgZm9yIGluZm9ybWF0aW9uYWwgcHVycG9zZXMgb25seS4KCk5PTi1FWENMVVNJVkUgRElTVFJJQlVUSU9OIExJQ0VOU0UKCkJ5IHNpZ25pbmcgYW5kIHN1Ym1pdHRpbmcgdGhpcyBsaWNlbnNlLCB5b3UgKHRoZSBhdXRob3Iocykgb3IgY29weXJpZ2h0Cm93bmVyKSBncmFudHMgdG8gRFNwYWNlIFVuaXZlcnNpdHkgKERTVSkgdGhlIG5vbi1leGNsdXNpdmUgcmlnaHQgdG8gcmVwcm9kdWNlLAp0cmFuc2xhdGUgKGFzIGRlZmluZWQgYmVsb3cpLCBhbmQvb3IgZGlzdHJpYnV0ZSB5b3VyIHN1Ym1pc3Npb24gKGluY2x1ZGluZwp0aGUgYWJzdHJhY3QpIHdvcmxkd2lkZSBpbiBwcmludCBhbmQgZWxlY3Ryb25pYyBmb3JtYXQgYW5kIGluIGFueSBtZWRpdW0sCmluY2x1ZGluZyBidXQgbm90IGxpbWl0ZWQgdG8gYXVkaW8gb3IgdmlkZW8uCgpZb3UgYWdyZWUgdGhhdCBEU1UgbWF5LCB3aXRob3V0IGNoYW5naW5nIHRoZSBjb250ZW50LCB0cmFuc2xhdGUgdGhlCnN1Ym1pc3Npb24gdG8gYW55IG1lZGl1bSBvciBmb3JtYXQgZm9yIHRoZSBwdXJwb3NlIG9mIHByZXNlcnZhdGlvbi4KCllvdSBhbHNvIGFncmVlIHRoYXQgRFNVIG1heSBrZWVwIG1vcmUgdGhhbiBvbmUgY29weSBvZiB0aGlzIHN1Ym1pc3Npb24gZm9yCnB1cnBvc2VzIG9mIHNlY3VyaXR5LCBiYWNrLXVwIGFuZCBwcmVzZXJ2YXRpb24uCgpZb3UgcmVwcmVzZW50IHRoYXQgdGhlIHN1Ym1pc3Npb24gaXMgeW91ciBvcmlnaW5hbCB3b3JrLCBhbmQgdGhhdCB5b3UgaGF2ZQp0aGUgcmlnaHQgdG8gZ3JhbnQgdGhlIHJpZ2h0cyBjb250YWluZWQgaW4gdGhpcyBsaWNlbnNlLiBZb3UgYWxzbyByZXByZXNlbnQKdGhhdCB5b3VyIHN1Ym1pc3Npb24gZG9lcyBub3QsIHRvIHRoZSBiZXN0IG9mIHlvdXIga25vd2xlZGdlLCBpbmZyaW5nZSB1cG9uCmFueW9uZSdzIGNvcHlyaWdodC4KCklmIHRoZSBzdWJtaXNzaW9uIGNvbnRhaW5zIG1hdGVyaWFsIGZvciB3aGljaCB5b3UgZG8gbm90IGhvbGQgY29weXJpZ2h0LAp5b3UgcmVwcmVzZW50IHRoYXQgeW91IGhhdmUgb2J0YWluZWQgdGhlIHVucmVzdHJpY3RlZCBwZXJtaXNzaW9uIG9mIHRoZQpjb3B5cmlnaHQgb3duZXIgdG8gZ3JhbnQgRFNVIHRoZSByaWdodHMgcmVxdWlyZWQgYnkgdGhpcyBsaWNlbnNlLCBhbmQgdGhhdApzdWNoIHRoaXJkLXBhcnR5IG93bmVkIG1hdGVyaWFsIGlzIGNsZWFybHkgaWRlbnRpZmllZCBhbmQgYWNrbm93bGVkZ2VkCndpdGhpbiB0aGUgdGV4dCBvciBjb250ZW50IG9mIHRoZSBzdWJtaXNzaW9uLgoKSUYgVEhFIFNVQk1JU1NJT04gSVMgQkFTRUQgVVBPTiBXT1JLIFRIQVQgSEFTIEJFRU4gU1BPTlNPUkVEIE9SIFNVUFBPUlRFRApCWSBBTiBBR0VOQ1kgT1IgT1JHQU5JWkFUSU9OIE9USEVSIFRIQU4gRFNVLCBZT1UgUkVQUkVTRU5UIFRIQVQgWU9VIEhBVkUKRlVMRklMTEVEIEFOWSBSSUdIVCBPRiBSRVZJRVcgT1IgT1RIRVIgT0JMSUdBVElPTlMgUkVRVUlSRUQgQlkgU1VDSApDT05UUkFDVCBPUiBBR1JFRU1FTlQuCgpEU1Ugd2lsbCBjbGVhcmx5IGlkZW50aWZ5IHlvdXIgbmFtZShzKSBhcyB0aGUgYXV0aG9yKHMpIG9yIG93bmVyKHMpIG9mIHRoZQpzdWJtaXNzaW9uLCBhbmQgd2lsbCBub3QgbWFrZSBhbnkgYWx0ZXJhdGlvbiwgb3RoZXIgdGhhbiBhcyBhbGxvd2VkIGJ5IHRoaXMKbGljZW5zZSwgdG8geW91ciBzdWJtaXNzaW9uLgo=

Topological properties of Hermitian and non-Hermitian periodic systems

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