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Numerical study of the relevance of clustered states in diluted magnetic semiconductors and high temperature superconductorsAlvarez, Gonzalo. Dagotto, Elbio, January 2004 (has links)
Thesis (Ph. D.)--Florida State University, 2004. / Advisor: Dr. Elbio Dagotto, Florida State University, College of Arts and Sciences, Dept. of Physics. Title and description from dissertation home page (viewed Sept. 21, 2004). Includes bibliographical references.
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Carrier concentration determination in GaMnAs by optical techniques /Wang, Jie. January 2006 (has links)
Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2006. / Includes bibliographical references (leaves 64-66). Also available in electronic version.
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Magnetization-steps spectroscopy in dilute magnetic semiconductors and in molecular magnetism /Liu, Mingde. January 1998 (has links)
Thesis (Ph.D.)--Tufts University, 1998 . / Adviser: Yaacov Shapira. Submitted to the Dept. of Physics. Includes bibliographical references. Access restricted to members of the Tufts University community. Also available via the World Wide Web;
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Magnetoresistance in nanoparticles /Faheem, Mohammad. January 1900 (has links)
Thesis (Ph. D., Material Sciences and Engineering)--University of Idaho, January 2008. / Major professor: Keith A. Prisbrey. Includes bibliographical references (leaves 85-90). Also available online (PDF file) by subscription or by purchasing the individual file.
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Materials and magnetic studies of cobalt-doped anatase titanium dioxide and perovskite strontium titanate as potential dilute magnetic semiconductors /Kaspar, Tiffany C. January 2004 (has links)
Thesis (Ph. D.)--University of Washington, 2004. / Vita. Includes bibliographical references (leaves 194-209).
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Transition metal implanted ZnO: a correlation between structure and magnetismZhou, Shengqiang 05 May 2008 (has links) (PDF)
Nowadays ferromagnetism is often found in potential diluted magnetic semiconductor systems. However, many authors question the origin of this ferromagnetism, i.e. if the observed ferromagnetism stems from ferromagnetic precipitates rather than from carriermediated magnetic coupling of ionic impurities, as required for a diluted magnetic semiconductor. In this thesis, this question will be answered for transition-metal implanted ZnO single crystals. Magnetic secondary phases, namely metallic Fe, Co and Ni nanocrystals, are formed inside ZnO. They are - although difficult to detect by common approaches of structural analysis - responsible for the observed ferromagnetism. Particularly Co and Ni nanocrystals are crystallographically oriented with respect to the ZnO matrix. Their structure phase transformation and corresponding evolution of magnetic properties upon annealing have been established. Finally, an approach, pre-annealing ZnO crystals at high temperature before implantation, has been demonstrated to sufficiently suppress the formation of metallic secondary phases.
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Transition metal implanted ZnO: a correlation between structure and magnetismZhou, Shengqiang 22 April 2008 (has links)
Nowadays ferromagnetism is often found in potential diluted magnetic semiconductor systems. However, many authors question the origin of this ferromagnetism, i.e. if the observed ferromagnetism stems from ferromagnetic precipitates rather than from carriermediated magnetic coupling of ionic impurities, as required for a diluted magnetic semiconductor. In this thesis, this question will be answered for transition-metal implanted ZnO single crystals. Magnetic secondary phases, namely metallic Fe, Co and Ni nanocrystals, are formed inside ZnO. They are - although difficult to detect by common approaches of structural analysis - responsible for the observed ferromagnetism. Particularly Co and Ni nanocrystals are crystallographically oriented with respect to the ZnO matrix. Their structure phase transformation and corresponding evolution of magnetic properties upon annealing have been established. Finally, an approach, pre-annealing ZnO crystals at high temperature before implantation, has been demonstrated to sufficiently suppress the formation of metallic secondary phases.
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Propriedades eletrônicas de heteroestruturas semicondutoras magnéticas diluídas. / Electronic properties of diluted magnetic semiconductor heterostructuresMarin, Ivan Silvestre Paganini 28 February 2007 (has links)
Neste trabalho e apresentado um estudo, via teoria de massa efetiva multibanda autoconsistente de heteroestruturas de semicondutores magnéticos diluídos, generalizada para incluir parâmetros de diferentes materiais. A interacao magnética e descrita por um modelo de campo médio baseado no mecanismo de troca indireta, com a possibilidade de inclusão de diferentes íons magnéticos. As equacoes de massa efetiva são resolvidas de forma autoconsistente com o auxílio da equacao de Poisson. As interacoes de spin-órbita e de troca-correlacao, na aproximacao de densidade local, são incluídas no cálculo. O método e aplicado para o estudo das estruturas de bandas e densidades de carga com separacao por spin do portador de heteroestruturas com dopagem tipo-n e tipo-p, variando a geometria dos pocos magnéticos e também o período da super-rede, as densidades de portadores e as concentracoes de íons magnéticos. Solucoes autoconsistentes da equacao de massa efetiva são encontradas para o oxido semicondutor (Zn,Co)O. Será mostrada a separacao de portadores por spin em funcao dos parâmetros variados, simulando diversas concentracoes possíveis, utilizadas em sistemas descritos na literatura, e será analisado o comportamento dos perfis de potencial. Usando os dados obtidos, um diagrama de fases será traçado com base na polarizacao total ou parcial dos portadores, e o seu comportamento será discutido. Também serão mostradas as estruturas de bandas, os perfis de potencial e as distribuicoes de carga do semicondutor (GaMn)As, variando as densidades de portadores e a direcao do campo magnético intrínseco, gerado pela dopagem com íons magnéticos. Os resultados obtidos neste trabalho podem servir de guia para futuras experiências e para o desenvolvimento de dispositivos com semicondutores magnéticos diluídos baseados em (Zn,Co)O e (Ga,Mn)As. Os métodos aqui descritos são gerais e podem ser utilizados para outros materiais. / This work presents a self-consistent multiband effective mass theory applied to diluted magnetic semiconductor heterostructures, generalized to include parameters of different ma- terials. The magnetic interaction is described by a mean-field approximation based on indirect- exchange mecanism, with the possibility of inclusion of different magnetic ions. The effective mass equations are solved self-consistently with the help of the Poisson equation. Spin-orbit and exchange-correlation interactions are included in the simulation in the local density appro- ximation. The method is used to study band structures and charge densities separated by spin in n- and p-type heterostructures. The magnetic well\'s geometry, the superlattice period, the carrier density and the magnetic ion concentration are changed. Self-consistent solutions of the effective mass equation are found for the semiconductor oxide (Zn,Co)O. Charge separation by spin will be show in function of the variation of the simulation parameters, simulating several ion concentrations and charge densities used in systems described in literature, and the potenti- als profiles will be analised. Using the data obtained a phase diagram will be plotted, based on the carrier total or partial carrier polarization, and a model for the behavior of the phase diagram will be discussed. It will also be shown band structures, potential profiles and charge densities of the (Ga,Mn)As semiconductor, varying it carrier density and the direction of the intrinsic magnetic field, generated by the magnetic ions that doped the heterostructure. The results ob- tained in this work can be used as a guide in future experiences and development of devices with diluted magnetic semiconductors based on (Zn,Co)O and (Ga,Mn)As. The methods here described are general and can be used for other materials.
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Studies on diluted oxide magnetic semiconductors for spin electronic applicationsPeleckis, Germanas. January 2006 (has links)
Thesis (Ph.D.)--University of Wollongong, 2006. / Typescript. Includes bibliographical references: leaf 165-179. Includes list of publications: leaf 180-181.
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Avaliação do tipo de precursor e da dopagem no sistema Zn1-ₓFeₓO visando a obtenção de semicondutores magnéticos diluídos (SMDs).MACHADO, Lucius Vinicius Rocha. 25 June 2018 (has links)
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Previous issue date: 2015-12-18 / Esse trabalho teve como objetivo, avaliar a influência do tipo de precursor, fonte de íons de ferro, e sua concentração na dopagem do sistema Zn1-xFexO de modo a se obter um produto com ferrimagnetismo a temperatura ambiente para uso como semicondutor magnético diluído. Para esse fim, inicialmente avaliou-se a influência do tipo de precursor (nitrato de ferro III, sulfato de ferro II e acetato de ferro II) sobre a estrutura, morfologia, propriedades térmicas e magnéticas do sistema Zn1-xFexO com concentração de íons de Fe2+ e Fe3+ de 0,4 mol. Posteriormente avaliou-se o efeito da concentração de íons de ferro III variando de 0,05 a 0,4 mol sobre a estrutura e magnetismo do sistema Zn1- xFexO. Durante as reações para obtenção do produto foram feitas medições de temperatura e do tempo de reação. As amostras foram caracterizadas por: difração de raios X, análise química por fluorescência de raios X por energia dispersiva, microscopia eletrônica de varredura com mapeamento por EDS, distribuição granulométrica, análise por adsorção de nitrogênio, magnetometria de amostra vibrante e análise termogravimétrica. Os resultados mostraram que o tipo de precursor influenciou diretamente na estrutura, morfologia e magnetismos das amostras, sendo o precursor nitrato de ferro III o que possibilitou à formação de um material ferrimagnético a temperatura ambiente. Para as amostras dopadas, os espectros de DRX mostraram que até a concentração de 0,20 mol de íons ferro III resultou num sistema monofásico com comportamento ferrimagnético à temperatura ambiente, o que caracterizou a formação de um semicondutor magnético diluído. Para demais concentrações foi observado traços da fase FeFe2O4 e que às interações de troca entre os íons Fe - Fe e possivelmente o aumento da concentração de vacância de oxigênio na rede do ZnO suprimiu o comportamento ferrimagnético pela competição do comportamento ferrimagnético/paramagnético. Portanto, pode-se concluir que o precursor nitrato de ferro III com concentração de até 0,20 mol foi a melhor condição para obtenção de produto com característica para uso como semicondutor magnético diluído usando a técnica de síntese por reação de combustão. / The objective of this study is to evaluate the influence the type of precursor, source of iron ions, and its concentration in the doping Zn1-xFexO system in order to obtain a product with ferromagnetism at room temperature for use as magnetic semiconductor diluted. For this purpose, it was firstly evaluated the influence of the type of precursor (iron III nitrate, iron sulfate II, iron acetate II) on the structure, morphology, thermal and magnetic properties of Zn1-xFexO system concentration of Fe2+ and Fe3+ ions of 0.4 mol. After that, it was evaluated the effect of concentration of iron III ions ranging from 0.05 to 0.4 mol on the structure and magnetism of Zn1-xFexO system. During the reactions, there were made measurements of temperature and time. The samples were characterized by: X-ray diffraction, chemical analysis by fluorescence X-ray energy dispersive, scanning electron microscopy, with mapping by EDS, particle size analysis, analysis by nitrogen adsorption, vibrating sample magnetometer and thermal gravimetric analysis. The results have shown that the type of precursor influenced directly the structure, morphology and magnetism of the samples and the precursor of iron nitrate III was the one which favored the obtention of the ferromagnetism material monophasic at room temperature. For the doped samples, the XRD spectra showed that the concentrations until 0.20 mol of iron III ions resulted in a monophasic system with ferromagnetic behavior at room temperature, which characterized the formation of a diluted magnetic semiconductor. For the other concentrations, it was observed traces of MnFe2O4 phase and that the exchange interactions between the ionsFe - Fe and possibly the increasing of oxygen vacancy concentration in ZnO network suppressed the ferromagnetic behavior by the competition of ferromagnetic / paramagnetic one. Therefore, it can be concluded that the precursor of iron III nitrate concentration to 0.20 mol was the best condition for obtaining a product with characteristics for use as a dilute magnetic semiconductor using the synthetic technique by combustion.
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