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Desenvolvimento de metodologias para o estudo do efeito Raman normal e ressonante utilizando modelos Ab initio dependentes do tempo / Development of methodologies for the study of normal and resonance Raman effect using Ab initio time-dependent modelsVidal, Luciano Nassif 14 August 2018 (has links)
Orientador: Pedro Antonio Muniz Vazquez / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-14T17:56:25Z (GMT). No. of bitstreams: 1
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Previous issue date: 2009 / Resumo: O presente trabalho aborda o desenvolvimento de metodologias para o cálculo das intensidades absolutas do espalhamento Raman vibracional produzido por moléculas em fase gasosa. Com o objetivo de reduzir a demanda por recursos computacionais nestes cálculos, foram desenvolvidas duas novas famílias de funções de base compactas pela aplicação do método de polarização elétrica de Sadlej às bases para uso com potenciais efetivos de caroço SBKJC e de Stuttgart-Colônia. Utilizando estas novas funções de base, as intensidades Raman podem ser obtidas com a mesma qualidade das bases Sadlej-pVTZ, que são referência no cálculo destas propriedades, porém com um custo computacional sensivelmente menor. Além disso, como estes pseudopotenciais foram modelados para descrever os efeitos relativísticos sobre os elétrons internos, as polarizabilidades e intensidades Raman obtidas no nível Hartree-Fock com estas novas bases concordam, dentro de um erro médio de 6%, com seus respectivos valores relativísticos Dirac-Hartree-Fock/Sadlei-pVTZ com hamiltoniano de Dirac-Coulomb. Também foi desenvolvida uma metodologia para o estudo das intensidades das transições Raman fundamentais, de combinação e sobretom, que inclui as correções para a anarmonicidade cúbica do potencial, introduzidas através de uma transformação de contato. Os resultados obtidos para a molécula de acetileno e seus isotopômeros deuterados mostram que a anarmonicidade mecânica exerce grande influência sobre as intensidades Raman, particularmente das transições de segunda ordem. Excetuando as transições de combinação, em geral, as correções de anarmoniciadade melhoram a concordância dos valores teóricos com os experimentais. Uma terceira parte deste trabalho trata do efeito Raman em condições ressonantes, onde uma expressão para estas intensidades foi derivada, implementada no programa PLACZEK e aplicada no cálculo do espectro Raman da molécula de trans-butadieno nas vizinhanças de sua transição eletrônica 1Bu. Este estudo mostrou que as aproximações utilizadas com maior frequência para simplificar o cálculo desta propriedade afetam significativamente as seções de choque desta molécula, sugerindo que estas aproximações devem ser evitadas em estudos desta natureza. / Abstract: In this work new methodologies for the calculation of absolute vibrational Raman intensities of gaseous systems are presented. In order to reduce the computational requirements in these calculations two families of compact basis functions were generated from the effective core potential valence basis sets SBKJC and Stuttgart-Cologne through the Sadlej's electric polarization procedure. The Raman intensities evaluated with the new bases are close to those obtained with the well successful Sadlej-pVTZ basis but the computational requirements are significatively reduced. Furthermore, since the effective core potentials SBKJC and Stuttgart-Cologne were developed to account for the relativistic effects on the inner electrons, the polarizabilities and Raman intensities evaluated at the Hartree-Fock level with the new bases agree with the relativistic Dirac-Hartree-Fock values, obtained using the Dirac-Coulomb Hamiltonian and the Sadlej-pVTZ set, within the mean error of 6%. In the second part of this work a methodology was developed for the study of fundamental, combination and overtone Raman transitions including a treatment based on the contact transform formalism for the mechanical anharmonicity from the cubic potential energy terms. The results obtained for acetylene and its deutered isotopomers show that anharmonicity effects on the Raman intensities can be very strong, particularly in the second order transitions. With the exception of the combination transitions, in general the corrections for mechanical anharmonicity improve the agreement between ab initio and experimental values. The resonance Raman scattering is the subject of the third part of this work where an expression for the resonance cross section was derived, implemented in the PLACZEK program and applied to the calculation of the resonance Raman spectrum of the trans-butadiene molecule in the region of its. / Doutorado / Físico-Química / Doutor em Ciências
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First Principles Modelling of Clean Energy MaterialsŽguns, Pjotrs January 2015 (has links)
This licentiate thesis presents the density functional theory study on clean energy materials relevant for catalysis applications, and for solid oxide fuel cells. In the first part of the thesis the metal supported ultrathin films, namely ScN/Mo, MgO/Mo and NaF/Mo are considered, and the Cu atom adsorption and charging on them is explored.The comparative study of these different films allows us to provide recommendations regarding the choice of materials, in order to promote adatom charging. The modulation of the adatom charge, by changing the material of the film, also paves the way for the design of novel catalysts. Moreover, the detailed investigation of the Cu/NaF/Mo caseshows a correlation between the charge redistribution upon the adsorption and the anharmonicity of the accompanying distortion. Overall, the research commands a fresh view on the adatom charging mechanism. In the second part of the thesis the gadolinium doped ceria, used asoxide electrolyte in solid oxide fuel cells, is studied. The employment of the cluster expansion method together with the density functional theory calculations provides the description of the configurational energy spectrum of dopants and oxygen vacancies in terms of effective pair and three site interactions. The chosen method allows one to predict the energy of anarbitrary configuration. Moreover, the effect of volume change on the strength of interactions is investigated, which is relevant for the modelling ofoxide electrolytes at operating temperatures of solid oxide fuel cells,i.e. when volume expansion is notable. / <p>QC 20150521</p>
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Equilibrium Fractionation of Sulfur Isotopes Between Pyrite, Sphalerite and Galena as a function of Temperature. / Equilibrium Fractionation of Sulfur IsotopesGrootenboer, John 11 1900 (has links)
<p> The existence of significant and consistent fractionation of sulfur isotopes in natural coexisting sulfide mineral pairs is demonstrated. Such fractionations are shown to depend exclusively on the mineralogy of the assemblage and temperature of equilibration, consistent with a process of fractionation during equilibrium exchange of sulfur isotopes between the sulfide phases . The fractionation of sulfur isotopes between galena, sphalerite and pyrite has been determined experimentally over the temperature range 300-725°C . The fractionation for each mineral pair is shown to vary as T^(-2) so that three isotope geothermometer s have been calibrated. Experi mental results are applied to natural sulfide assemblages to determine the temperature of equilibration and extent to which isotopic equilibriurn has b een attained. </p> / Thesis / Doctor of Philosophy (PhD)
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Präzisionsmassebestimmung einzelner Partikel im Femtogrammbereich und Anwendungen in der OberflächenphysikIllemann, Jens 03 August 2000 (has links) (PDF)
In this work, a new method for mass determination of single low-charged particles in the sub-picogram regime is developed. It opens applications to chemical physics and surface science via determination of growth rates. The method combines the well-known electrodynamic quadrupole ion trap in a UHV-chamber and fourier transformation of scattered light. The achieved mass resolution of down to $10^{-4}$ at 100 fg mass on a time scale of ten seconds allows a resolution of a few percent of the mass of an adsorbed monolayer and to determine growth rates down to one molecule per second on a time scale of one day. The observation of temperature dependent sticking coefficients results in the measures of the energy of an adsorption barrier. Observation of discrete steps in the rate gives information about the density of molecules in an ordered layer. Temperature dependent desorption data gives the binding energy. The dependence of these observables on the controllable curvature and charge of the substrate's surface is measurable.
The first part of this dissertation consists of a description of the common theory of the quadrupole ion trap with the completion of not widely known, newly introduced, contributions to the trapping potential. These contributions lead to systematic shifts in the mass determination. In particular the influence of the inhomogenity of the electrical field, that is used for compensating the gravitational force, is investigated analytically and corroborated experimentally. It is assumed, that the particle's finite size effects in a further shift.
In the experimental part initial demonstrative measurements are presented: the time-resolved adsorption of fullerene, anthracene and NO on silica spheres with 500nm diameter has been measured at room temperature. In addition the secondary electron yield of in-situ prepared particles during irradiation with monoenergetic electrons has been determined by analyzing the distribution of change of the number of elementary charges by single events of charging.
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Präzisionsmassebestimmung einzelner Partikel im Femtogrammbereich und Anwendungen in der OberflächenphysikIllemann, Jens 26 July 2000 (has links)
In this work, a new method for mass determination of single low-charged particles in the sub-picogram regime is developed. It opens applications to chemical physics and surface science via determination of growth rates. The method combines the well-known electrodynamic quadrupole ion trap in a UHV-chamber and fourier transformation of scattered light. The achieved mass resolution of down to $10^{-4}$ at 100 fg mass on a time scale of ten seconds allows a resolution of a few percent of the mass of an adsorbed monolayer and to determine growth rates down to one molecule per second on a time scale of one day. The observation of temperature dependent sticking coefficients results in the measures of the energy of an adsorption barrier. Observation of discrete steps in the rate gives information about the density of molecules in an ordered layer. Temperature dependent desorption data gives the binding energy. The dependence of these observables on the controllable curvature and charge of the substrate's surface is measurable.
The first part of this dissertation consists of a description of the common theory of the quadrupole ion trap with the completion of not widely known, newly introduced, contributions to the trapping potential. These contributions lead to systematic shifts in the mass determination. In particular the influence of the inhomogenity of the electrical field, that is used for compensating the gravitational force, is investigated analytically and corroborated experimentally. It is assumed, that the particle's finite size effects in a further shift.
In the experimental part initial demonstrative measurements are presented: the time-resolved adsorption of fullerene, anthracene and NO on silica spheres with 500nm diameter has been measured at room temperature. In addition the secondary electron yield of in-situ prepared particles during irradiation with monoenergetic electrons has been determined by analyzing the distribution of change of the number of elementary charges by single events of charging.
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