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The Global ETD Search service is a free service for researchers
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 21 to 26 of 26 (0.05 seconds)| 21 |
Tópicos de teoria de campos com aplicações a condensados de Bose-Einstein / Topics of field theory with applications in Bose-Einstein condensalesValéria de Carvalho Souza 30 October 2014 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A tese de doutorado apresenta uma aplicação de técnicas de teoria de campos em um sistema da matéria condensada. Motivados por experimentos em gases atômicos,
apresentamos um estudo sobre misturas binárias de gases atômicos na presença de uma interação do tipo Josephson. O foco principal é o estudo de um modelo de dois campos complexos não-relativisticos com simetria O(2). Esta simetria é quebrada por interações que produzem um desbalanço nas populações das duas espécies bosônicas. Estudamos o modelo na aproximação de campo médio mais flutuações gaussianas, usando o formalismo
de teoria de campos a temperatura finita em tempo imaginário. Os resultados mostram que, num certo intervalo de temperaturas, as duas espécies bosônicas condensam à mesma temperatura crítica e a fase relativa do condensado é fixa, determinada pela fase do campo externo aplicado. / The thesis apresents an applications of field theory techniques in a condensed matter system. Motivated by experiments in atomic gases, we present a study of binary mixture of atomic gases in the presence of an interaction type Josephson. The main focus
is the study of a model of two complex fields with non-relativistic symmetry O(2). This symmetry is broken by interactions that produce an inbalance in the populations of the two species bosonic. We study the model in the mean-field approximattion more gaussian fluctuations, using the formalism of field theory at finite temperature in imaginary time. The results show that in a certain temperature range, the two bosonic species condense
the same critical temperature and the ralative phase of the condensate is fixed and determined by the applied external field phase.
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Décomposition de l'intéraction d'échange magnétique par l'approche à brisure de symétrie : théorie et applications / Decomposition of the magnetic exchange coupling in the broken-symmetry approach : theory and applicationsDavid, Grégoire 16 November 2018 (has links)
Les travaux de recherche présentés dans cette thèse portent sur la méthode de décomposition de l'interaction d'échange ($J$) entre les centres magnétiques d'une molécule portant des électrons célibataires par l'approche à brisure de symétrie. Le but de cette méthode est d'extraire à l'aide des calculs non-restreints les différentes contributions physiques au couplage magnétique : l'échange direct ($J_0$) entre les orbitales magnétiques, l'échange cinétique ($\Delta J_{KE}$) permettant la délocalisation des orbitales magnétiques et la polarisation des orbitales de cœur ($\Delta J_{CP}$). La première partie de ce travail est consacrée à la théorie de la méthode de décomposition dans le cas le plus simple de deux électrons dans deux centres magnétiques d'un système centro-symétrique. La physique des contributions est expliquée en lien avec la présentation des outils méthodologiques et théoriques utilisés dans cette approche. La deuxième partie de cette thèse concerne l'implémentation de cette méthode dans le logiciel Orca et son application à des systèmes non-centrosymétriques. La dernière partie de ces travaux porte sur les développements méthodologiques que j'ai pu mener au cours de ces trois années de thèse. Une nouvelle approche permettant d'extraire la contribution de polarisation en spin est présentée. De plus, une proposition de généralisation de la décomposition de l'interaction d'échange magnétique basée sur la théorie des hamiltoniens effectifs est discutée. Un effort particulier a été porté sur l'explication et la signification physique de l'approche à brisure de symétrie dans le formalisme Hartree-Fock et la théorie de la fonctionnelle de la densité / This work is focused on the decomposition of the magnetic exchange coupling ($J$) between magnetic centers in the broken-symmetry approach. The purpose of this method is to extract from unrestricted calculations the different contributions to the magnetic coupling: the direct exchange ($J_0$) between the magnetic orbitals, the kinetic exchange interaction ($\Delta J_{KE}$) allowing the delocalization of the magnetic orbitals and the core polarization ($\Delta J_{CP}$) of non-magnetic electrons. The first part of this thesis is centered on the theory of the decomposition method in the simplest case of a centro-symmetric system with two electrons in two magnetic centers. The physical meaning is explained in relation with methodological and theoretical tools used in this approach. The second part presents the implementation of the method in the Orca package and its application to non centro-symmetric systems. In particular, this application highlights the interest of a such automatic method in standard quantum package. The last part of this work is focused on the methodological developments carried out during these three years. An innovative method avoiding the spin contamination problem is presented to extract the spin polarization effects. Furthermore, a generalization of the decomposition of $J$ to more complicated systems with more than two electrons in two magnetic centers is discussed. Special attention was given to the explanation and physical meaning of broken symmetry approach in Hartree-Fock and Density Functional Theory
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Role of Exchange Interactions in the Magnetic Response and Intermolecular Recognition of Chiral MoleculesDianat, Arezoo, Gutierrez, Rafael, Alpern, Hen, Mujica, Vladimiro, Ziv, Amir, Yochelis, Shira, Millo, Oded, Paltiel, Yossi, Cuniberti, Gianaurelio 02 May 2024 (has links)
The physical origin of the so-called chirality-induced spin selectivity (CISS) effect has puzzled experimental and theoretical researchers over the past few years. Early experiments were interpreted in terms of unconventional spin–orbit interactions mediated by the helical geometry. However, more recent experimental studies have clearly revealed that electronic exchange interactions also play a key role in the magnetic response of chiral molecules in singlet states. In this investigation, we use spin-polarized closed-shell density functional theory calculations to address the influence of exchange contributions to the interaction between helical molecules as well as of helical molecules with magnetized substrates. We show that exchange effects result in differences in the interaction properties with magnetized surfaces, shedding light into the possible origin of two recent important experimental results: enantiomer separation and magnetic exchange force microscopy with AFM tips functionalized with helical peptides.
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[en] MAGNETIC, TRANSPORT AND EMERGENT PROPERTIES IN NANOSCOPIC AND STRONGLY CORRELATED SYSTEMS / [pt] PROPRIEDADES MAGNÉTICAS, DE TRANSPORTE E EMERGENTES EM SISTEMAS NANOSCÓPICOS FORTEMENTE CORRELACIONADOSVICTOR LOPES DA SILVA 10 January 2019 (has links)
[pt] Esta tese investiga as propriedades eletrônicas de sistemas nanoscópicos com interações de muitos corpos, dando origem ao efeito Kondo. Primeiramente estudamos a transição SU(4)-SU(2) devido a um campo
magnético externo e as propriedades de filtro de spin de um nanossistema de dois pontos quânticos capacitivamente acoplados. A transição é caracterizada pela diferença entre as polarizações de spin da ocupação eletrônica nos dois pontos quânticos, como uma função do potencial de porta aplicado sobre
os pontos quânticos. Apesar do fato de que o campo magnético externo quebra a simetria SU(4) do Hamiltoniano, o estado fundamental a preserva, como uma propriedade emergente, na região do espaço de parâmetros onde os elétrons não estão polarizados. As propriedades de filtro de spin devido à população eletrônica spin polarizada nos pontos quânticos também é discutida. Estas propriedades são estudadas usando o formalismo dos operadores de projeção, que descreve de forma muito acurada a física associada
ao estado fundamental dos sistemas Kondo. No capítulo subsequente, analisamos os efeitos da interação spin-órbita num ponto quântico conectado a contatos, representados pelo modelo da impureza de Anderson no efeito Kondo. Contrariamente ao resultado prévio de vários outros autores, nós mostramos que a interação spin-órbita reduz exponencialmente a temperatura Kondo enquanto a ação da interação no
próprio ponto quântico pode ser um mecanismo de destruição do regime Kondo, conforme quebra a simetria SU(2). Usando o modelo de Anderson com acoplamento spin-órbita nós propomos um transistor de spin feito de um ponto quântico conectado a uma nanofaixa submetida à interação spin-órbita Rashba, depositada sobre um substrato ferromagnético. O ponto quântico também é conectado a dois contatos
metálicos laterais, através do qual a corrente flui ao longo do sistema. A interação spin-órbita Rashba cria um mecanismo de inversão do spin no ponto quântico. Nós mostramos que o sistema é capaz de operar como um transistor de spin. / [en] This thesis investigates the electronic properties of nanoscopic systems under the presence of many body interactions, given rise to the Kondo effect. Firstly we studied the SU(4)-SU(2) crossover driven by an external magnetic field and the spin-filter properties of a capacitively coupled double quantum dot nanosystem. The crossover is characterized by the difference between the spin polarization of the electronic occupation at the double quantum dot, as a function of the gate potential applied to the quantum dots. Despite the fact that the external magnetic field breaks the SU(4) symmetry of the Hamiltonian, the ground state preserves it, as an emergent property, in a region in the parameter space where the electron are not polarized. The spinfilter properties due the spin polarized electronic population at the dots is also discussed. These properties are studied using the projector projection operator approach, which describes very accurately the physics associated to the ground state of Kondo systems. In a subsequent chapter, we analyze the effect of the spin-orbit interaction in a quantum dot connected to leads, represented by the Anderson impurity model on the Kondo effect. Contrary to several other authors previous results,
we show that the Rashba spin-orbit interaction exponentially reduces the Kondo temperature while the action of the interaction on the quantum dot itself could be a mechanism of destroying the Kondo regime, as it breaks SU(2) symmetry. Using the Anderson model with spin-orbit coupling we propose a spin
transistor device made of a quantum dot connected to a Rashba spinorbit interacting nanoribbon, deposited on a ferromagnetic substrate. The quantum dot is also connected to two lateral metallic contacts, through
which the current flows along the system. The Rashba spin-orbit interaction creates a spin-flip mechanism at the quantum dot. We show that the system is capable of operating as a spin-transistor.
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Topological order in a broken-symmetry stateMüller, Roger Alexander 05 1900 (has links)
No description available.
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Experimental and numerical study of a magnetic realization of a Bose-Einstein Condensate in a purely organic spin-1/2 quantum magnet (NIT2Py)Moosavi Askari, Reza 08 1900 (has links)
No description available.
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