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Análise sistemática do campo hiperfino de contacto em átomos livres / Systematic analysis of the hyperfine contact field in free atomsAssali, Lucy Vitoria Credidio 29 April 1982 (has links)
Estudamos, de uma maneira sistemática, o campo hiperfino de contacto em átomos livres a fim de analisar a qualidade das funções de onda obtidas a partir da aproximação do operador de massa, da teoria de muitos corpos. 0 campo de contacto depende diretamente da função de onda dos eléctrons na origem e a aproximação utilizada para calculá-lo leva em conta tanto a dependência do exchange com a energia cinética do elétron quanto a inclusão da correlação coulombiana eletrônica, sem necessidade de parâmetros ajustáveis. Observamos que os resultados encontrados para tais campos, como esquema proposto, são competitivos com os de Hartree-Fock e por ser um esquema mais simples pode substituí-lo na obtenção de grandezas físicas relacionadas com as funções de onda dos sistemas a serem estudados. / The hyperfine contact field for free atoms has been calculated within the framework of the mass operator approximation for various atoms, in order to analyze the quality of the electronic wave functions. The mass operator approximation takes into account the electron-correlation effects as well as the dependence of the exchange with the velocity of the electrons. We found that the mass operator approximation to the exchange correlation effects yields values for the hyperfine contact field in good agreement with those obtained through the Hartree-Fock scheme. However, the mass operator approximation is simpler than the Hartree-Fock operator.
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Análise sistemática do campo hiperfino de contacto em átomos livres / Systematic analysis of the hyperfine contact field in free atomsLucy Vitoria Credidio Assali 29 April 1982 (has links)
Estudamos, de uma maneira sistemática, o campo hiperfino de contacto em átomos livres a fim de analisar a qualidade das funções de onda obtidas a partir da aproximação do operador de massa, da teoria de muitos corpos. 0 campo de contacto depende diretamente da função de onda dos eléctrons na origem e a aproximação utilizada para calculá-lo leva em conta tanto a dependência do exchange com a energia cinética do elétron quanto a inclusão da correlação coulombiana eletrônica, sem necessidade de parâmetros ajustáveis. Observamos que os resultados encontrados para tais campos, como esquema proposto, são competitivos com os de Hartree-Fock e por ser um esquema mais simples pode substituí-lo na obtenção de grandezas físicas relacionadas com as funções de onda dos sistemas a serem estudados. / The hyperfine contact field for free atoms has been calculated within the framework of the mass operator approximation for various atoms, in order to analyze the quality of the electronic wave functions. The mass operator approximation takes into account the electron-correlation effects as well as the dependence of the exchange with the velocity of the electrons. We found that the mass operator approximation to the exchange correlation effects yields values for the hyperfine contact field in good agreement with those obtained through the Hartree-Fock scheme. However, the mass operator approximation is simpler than the Hartree-Fock operator.
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Estrutura eletrônica e campo hiperfino de impurezas complexas de cobalto e de níquel em diamante / Eletronic estructure and hyperfine field of cobalt and nickel-related complexes in diamondLarico, Rolando 12 December 2008 (has links)
As várias possibilidades de aplicações tecnológicas que o diamante permite, na indústria de dispositivos, impulsionaram os avanços de fabricação de amostras de diamante sintético de alta qualidade. O cristal de diamante crescido, do grafite, pela técnica de alta pressão e alta temperatura (HPHT - High Pressure-High Temperature), utiliza ligas de metais de transição como solvente-catalizadores, que produzem contaminação das amostras. Dentre as várias impurezas de metal de transição introduzidas no material resultante, as impurezas de níquel são as mais bem caracterizadas, pois os centros relacionados ao Ni apresentam características únicas nestas amostras sintéticas. Apesar das ligas de cobalto serem as mais utilizadas como solvente-catalizador no crescimento de diamante sintético, defeitos relacionados a sua presença, no material resultante, não têm sido identificados com a mesma facilidade como aqueles relacionados aos do níquel. Medidas de absorção óptica e de ressonância paramagnética eletrônica têm identificado vários centros relacionados com a impureza de níquel e alguns centros relacionados com a impureza de cobalto em diamante, tanto isolados como formando complexos, que envolvem defeitos intrínsecos e/ou dopantes. Entretanto, existem ainda muitas dúvidas e controvérsias sobre a estrutura microscópica destes centros. / High quality synthetic diamond, growth out of graphite, has been achieved by the high pressure-high temperature (HPHT) methods. In order to speed up the process and allow to get macroscopic samples, 3d-transition metal alloys have been used as solvent-catalysts. Those transition metals (TM) end up contaminating the samples, generating electrically and optically active centers. Nickel was the first transition metal impurity unambiguously identified in synthetic diamond, ever since, several nickel-related active centers have been observed. Although cobalt has been the most widely used solvent-catalyst to grow diamond, cobalt-related defects could not be identified as easily as the nickel-related ones. Electron paramagnetic resonance (EPR) and optical absorption measurements have identified several Ni-related centers and some Co-related centers in diamond, mostly isolated TM and TM-related complexes involving intrinsic defects and/or dopants. However, there is considerable controversy about the microscopic structure of those centers. We present a theoretical investigation on the structural and electronic properties of nickel and cobalt impurities in diamond. The atomic structures, symmetries, formation and transition energies, and hyperfine parameters of isolated interstitial and substitutional Ni and Co, as well as of the Ni-divacancy, Co-divacancy, Co-divacancy-nitrogen, Ni-B, and Ni-N complexes were computed by using ab initio total energy methods. Here we used the spin-polarized full-potential linearized augmented plane wave (FPLAPW) method. The calculations were performed within the framework of the density functional theory and considered the supercell approach. Our results are discussed in the context of the microscopic models which have been proposed to explain the active centers identified in synthetic diamond. Based on our results, we confirm some microscopic models and we ultimately propose new ones which unifies several experimentally identified impurities.
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Estrutura eletrônica e campo hiperfino de impurezas complexas de cobalto e de níquel em diamante / Eletronic estructure and hyperfine field of cobalt and nickel-related complexes in diamondRolando Larico 12 December 2008 (has links)
As várias possibilidades de aplicações tecnológicas que o diamante permite, na indústria de dispositivos, impulsionaram os avanços de fabricação de amostras de diamante sintético de alta qualidade. O cristal de diamante crescido, do grafite, pela técnica de alta pressão e alta temperatura (HPHT - High Pressure-High Temperature), utiliza ligas de metais de transição como solvente-catalizadores, que produzem contaminação das amostras. Dentre as várias impurezas de metal de transição introduzidas no material resultante, as impurezas de níquel são as mais bem caracterizadas, pois os centros relacionados ao Ni apresentam características únicas nestas amostras sintéticas. Apesar das ligas de cobalto serem as mais utilizadas como solvente-catalizador no crescimento de diamante sintético, defeitos relacionados a sua presença, no material resultante, não têm sido identificados com a mesma facilidade como aqueles relacionados aos do níquel. Medidas de absorção óptica e de ressonância paramagnética eletrônica têm identificado vários centros relacionados com a impureza de níquel e alguns centros relacionados com a impureza de cobalto em diamante, tanto isolados como formando complexos, que envolvem defeitos intrínsecos e/ou dopantes. Entretanto, existem ainda muitas dúvidas e controvérsias sobre a estrutura microscópica destes centros. / High quality synthetic diamond, growth out of graphite, has been achieved by the high pressure-high temperature (HPHT) methods. In order to speed up the process and allow to get macroscopic samples, 3d-transition metal alloys have been used as solvent-catalysts. Those transition metals (TM) end up contaminating the samples, generating electrically and optically active centers. Nickel was the first transition metal impurity unambiguously identified in synthetic diamond, ever since, several nickel-related active centers have been observed. Although cobalt has been the most widely used solvent-catalyst to grow diamond, cobalt-related defects could not be identified as easily as the nickel-related ones. Electron paramagnetic resonance (EPR) and optical absorption measurements have identified several Ni-related centers and some Co-related centers in diamond, mostly isolated TM and TM-related complexes involving intrinsic defects and/or dopants. However, there is considerable controversy about the microscopic structure of those centers. We present a theoretical investigation on the structural and electronic properties of nickel and cobalt impurities in diamond. The atomic structures, symmetries, formation and transition energies, and hyperfine parameters of isolated interstitial and substitutional Ni and Co, as well as of the Ni-divacancy, Co-divacancy, Co-divacancy-nitrogen, Ni-B, and Ni-N complexes were computed by using ab initio total energy methods. Here we used the spin-polarized full-potential linearized augmented plane wave (FPLAPW) method. The calculations were performed within the framework of the density functional theory and considered the supercell approach. Our results are discussed in the context of the microscopic models which have been proposed to explain the active centers identified in synthetic diamond. Based on our results, we confirm some microscopic models and we ultimately propose new ones which unifies several experimentally identified impurities.
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Hyperjemné interakce v hexagonálních feritech / Hyperfine interactions in hexagonal ferritesCvešperová, Kateřina January 2011 (has links)
Nuclear magnetic resonance is a method, which provides information about the magnitude of hyperfine field present on izotope's nuclei with non-zero spin. The hyperfine field is sensitive to the local ordering of atoms surrounding the nuclei. The hyperfine field changes can be observed in response to changes in surroundings caused by substitution. The NMR spektra of 57Fe nuclei in the hexagonal ferrites with magnetoplumbit structure which contain cation substitution of trivalent cations Nd, Pr in crystallographic position of divalent cations Sr are measured and interpreted in this work. All experiment are measured at 4.2 K and we investigate the influence of the cation substituion on hyperfine field in thr measured oxides.
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