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21	Re-hierarquização e Extrapolações para o Limite do Conjunto de Base Completo. PANSINI, F. N. N. 06 May 2015 (has links) Made available in DSpace on 2018-08-01T22:30:01Z (GMT). No. of bitstreams: 1 tese_8896_Tese final Fernando Néspoli.pdf: 1384436 bytes, checksum: f3462b5c8d9880e7dec5565dd15bafb3 (MD5) Previous issue date: 2015-05-06 / Um método sugerido previamente para calcular a energia de correlação no limite do conjunto de base completo pela redesignação dos números hierárquicos, e o uso do esquema de extrapolação unified singlet- and triplet-pair é aplicado a um conjunto de prova de 106 sistemas. A aproximação é utilizada para obter os valores extrapolados para energia de correlação, energia de atomização, anisotropia e polarizabilidade média no limite do conjunto de base completo, através de teoria de perturbação de segunda ordem de Møller-Plesset, método de coupled-cluster com excitações simples e duplas e coupled-cluster com excitações simples e duplas com correções triplas perturbativas. Uma boa concordância com as melhores estimativas disponíveis é obtida, mesmo quando o par de números hierárquicos (d, t) é usado para realizar a extrapolação. Com isso, é concebível justificar que não há razão física forte para excluir as energias dulpa-zeta em extrapolações, especialmente se a base é calibrada para obedecer ao modelo teórico. Além disso, um esquema simples de extrapolação unificado de um parâmetro é sugerido para extrapolar a energia de correlação de valência para o conjunto de base completo em espécies formadas por átomos de H até Ne. A performance do novo modelo é avaliada para a energia de correlação com um conjunto de de dados de 106 sistemas e, para polarizabilidade média, em um conjunto de 8 moléculas. Para as energias de correlação, os resultados são excelentes, na maioria das vezes melhores do que quando extrapolado com os mais populares protocolos de dois parâmetros disponíveis na literatura. Para a polarizabilidade, os resultados mostram uma melhora em relação aos valores ab initio, e uma boa concordância com os dados experimentais. Átomos Moléculas Química Quântica-Metodologia Hartree Fock
22	Avaliação do uso de metodos de integração numerica na discretização de transformadas integrais Gomes, Andre Severo Pereira 27 July 2018 (has links) Orientador: Rogerio Custodio / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-07-27T23:20:45Z (GMT). No. of bitstreams: 1 Gomes_AndreSeveroPereira_M.pdf: 1027128 bytes, checksum: f1b7d5eb3ae118af8a885c862f1ea2a2 (MD5) Previous issue date: 2001 / Mestrado Processos gaussianos Físico-química Hartree-Fock, Aproximação de
23	Functional integration applied to the nuclear many body-problem Troudet, Thierry. January 1982 (has links) Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Physics, 1982. / Includes bibliographical references. / by Thierry Troudet. / Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Physics, 1982. Physics. Many-body problem. Hartree-Fock approximation.
24	Describing strong correlations with mean-field approximations Tsuchimochi, Takashi 06 September 2012 (has links) Strong electron correlations in electronic structure theory are purely quantum effects arising as a result of degeneracies in molecules and materials, and exhibit significantly different yet interesting characters than do weak correlations. Although weak correlations have recently been able to be described very efficiently and accurately within single particle pictures, less known are good prescriptions for treating strong correlations efficiently. Brute-force calculations of strong correlations in wave function theories tend to be very computationally-intensive, and are usually limited to small molecules for applications. Breaking symmetry in a mean-field approximation is an efficient alternative to acquire strong correlations with, in many cases, qualitatively accurate results. The symmetry broken in quantum chemistry has been traditionally of spin, in so-called unrestricted methods, which typically break spatial symmetry as a consequence, and vice versa, in most situations. In this work, we present a novel approach to accurately describing strong correlations with a mean-field cost by means of Hartree- Fock-Bogoliubov (HFB) theory. We are inspired by the number-symmetry-breaking in HFB, which, with an attractive particle interaction, accounts for strong correlations, while maintaining spin and spatial symmetry. We show that this attractive interaction must be restricted to the chemically-relevant orbitals in an active space to obtain physically meaningful results. With such constraints, our constrained pairing mean-field theory (CPMFT) can accurately describe potential energy curves of various strongly-correlated molecular systems, by cleanly separating strong and weak correlations. To achieve the correct dissociation limits in hetero-atomic molecules, we have modified our CPMFT functional by adding asymptotic constraints. We also include weak correlations by combining CPMFT with density functional theory for chemically accurate results, and reveal the connection between CPMFT and traditional unrestricted methods. The similarity between CPMFT and unrestricted methods leads us to the idea of constrained active space unrestricted mean-field approaches. Motivated by CPMFT, we partially retrieve spin-symmetry that has been fully broken in unrestricted methods. We allow symmetry breaking only in an active space. This constrained unrestricted Hartree-Fock (CUHF) is an interpolation between two extrema: the fully broken-symmetry solution and the symmetry preserved solution. This thesis defines the theory behind and reports the results of CUHF. We first show that, if an active space is chosen to include only open-shell electrons, CUHF reduces to restricted open-shell Hartree-Fock (ROHF), and such CUHF proves in many ways significantly Electronic structure theory Strong correlation Static correlation Hartree-Fock Hartree-Fock-Bogoliubov Spin-contamination
25	Hatree-Fock (HF) ve Yoğunluk Fonksiyon Teori (DFT) metotlarıyla 2-, 3- ve 4- Triflorometilbenzaldehit moleküllerinin titreşimsel analizleri ve moleküler yapıları / Sert, Yusuf. Ucun, Fatih. January 2008 (has links) (PDF) Tez (Yüksek Lisans) - Süleyman Demirel Üniversitesi, Fen Bilimleri Enstitüsü, Fizik Anabilim Dalı, 2008. / Kaynakça var.
26	Modèle de Hartree-Fock-Bogoliubov : une perspective théorique et numérique / Hartree-Fock-Bogoliubov Theory : a Theoretical and Numerical Perspective Paul, Séverine 30 September 2012 (has links) Cette thèse est consacrée à l'étude mathématique et numérique du modèle de Hartree-Fock-Bogoliubov (HFB) pour les systèmes quantiques attractifs, qui est abondamment utilisé en physique nucléaire. Après avoir présenté le modèle et ses principales caractéristiques, nous expliquons comment le discrétiser et nous montrons des résultats de convergence. Nous examinons tout particulièrement l'algorithme de point fixe (parfois appelé Roothaan) et montrons qu'il converge ou alors oscille entre deux états dont aucun n'est solution du problème. Ceci généralise au cadre HFB des résultats de Cancès et Le Bris pour le modèle plus simple de Hartree-Fock dans le cas répulsif. Suivant ces mêmes auteurs, nous proposons un algorithme basé sur la contrainte relachée et pour lequel la convergence est garantie. Dans dernière partie de la thèse, nous illustrons le comportement de ces algorithmes par des simulations numériques pour plusieurs modèles. Dans un premier temps nous considérons un système purement gravitationnel où les particules interagissent avec le potentiel de Newton. Nos simulations montrent que la matrice d'appariement est toujours non nulle, un fait qui n'a pas encore pu être démontré rigoureusement. Nous étudions ensuite un modèle très simplifié pour la description de protons et neutrons dans le noyau atomique. / This work is devoted to the theoretical and numerical study of Hartree-Fock-Bogoliubov (HFB) theory for attractive quantum systems, which is one of the main methods in nuclear physics. We first present the model and its main properties, and then explain how to discretize it. We prove some convergence results, in particular for the simple fixed point algorithm (sometimes called Roothaan). We show that it converges, or oscillates between two states, none of them being a solution. This generalizes to the HFB case previous results of Cancès and Le Bris for the simpler Hartree-Fock model in the repulsive case. Following these authors, we also propose a relaxed constraint algorithm for which convergence is guaranteed. In the last part of the thesis, we illustrate the behavior of these algorithms by some numerical experiments. We first consider a system where the particles only interact through the Newton potential. Our numerical results show that the pairing matrix never vanishes, a fact that has not yet been proved rigorously. We then study a very simplified model for protons and neutrons in a nucleus. Hartree-Fock-Bogoliubov Analyse numérique Physique quantique Appariement Hartree-Fock-Bogoliubov Numerical analysis Quantum physics Pairing
27	Propriedades eletrônicas de pontos quânticos contendo muitos elétrons / Electronic Properties of Quantum Dots Containing Many Electrons Melo, Heitor Alves de January 2010 (has links) MELO, Heitor Alves de. Propriedades eletrônicas de pontos quânticos contendo muitos elétrons. 2010. 75 f. Dissertação (Mestrado em Física) - Programa de Pós-Graduação em Física, Departamento de Física, Centro de Ciências, Universidade Federal do Ceará, Fortaleza, 2010. / Submitted by Edvander Pires (edvanderpires@gmail.com) on 2015-05-04T17:47:42Z No. of bitstreams: 1 2010_dis_hamelo.pdf: 2475149 bytes, checksum: f2b733568c55c95683fc14e493c5ab31 (MD5) / Approved for entry into archive by Edvander Pires(edvanderpires@gmail.com) on 2015-05-07T14:29:38Z (GMT) No. of bitstreams: 1 2010_dis_hamelo.pdf: 2475149 bytes, checksum: f2b733568c55c95683fc14e493c5ab31 (MD5) / Made available in DSpace on 2015-05-07T14:29:38Z (GMT). No. of bitstreams: 1 2010_dis_hamelo.pdf: 2475149 bytes, checksum: f2b733568c55c95683fc14e493c5ab31 (MD5) Previous issue date: 2010 / This work investigates the electronic properties of semiconductor quantum dots in which there are many electrons confined. In particular, we study Si and Ge quantum dots embedded in dielectric matrices (SiO2 e HfO2). The theoretical method used to calculate the total energy of N electrons confined in quantum dots is based on a simplified version of the Hartree-Fock method. In this model, the total energy is obtained from single-particle wavefunctions and eigen-energies. The obtained results show that the total energy in Ge quantum dots are always larger than in Si ones. The reason is the smaller electron e effective mass in Ge, which raises the energies of the confined states. As for the role of the dielectric matrix, the total energy is always larger for SiO2 than for HfO2. Physically, this e effect is caused by the fact that SiO2 has larger confinement barriers (3.2 eV) than HfO2(1.5 eV). Smaller barriers favor larger spatial extent of the wavefunctions, decreasing the repulsion energy of the confined electrons. The chemical potential and additional energy was also calculated as function of the number of confined electrons. It was observed that the chemical potential of Ge quantum dots are always larger than Si ones, but the role of the dielectric matrix is inverted. The chemical potential for HfO2 is larger than for SiO2. With respect to the additional energy, we observed that this quantity strongly oscillates within the range 0 to 0.4 eV for cases. If one takes into account that the Coulomb blockade phenomena is only observed for additional energies much larger the thermal energy (of the order of 3/2kBT), this phenomena can only be observed for the case where there are only a few electrons confined in the quantum dots. / Este trabalho dedica-se ao estudo das propriedades eletrônicas de pontos quânticos semicondutores contendo muitos elétrons confinados. Em particular, serão investigados semicondutores contendo muitos elétrons confinados. Em particular, serão investigados pontos quânticos de Si e Ge imersos em matrizes dielétricas (SiO2 e HfO2). O método teórico utilizado para calcular a energia total de um sistema de N elétrons confinados baseia-se numa versão simplificada do método de Hartree-Fock. Neste modelo a energia total e calculada a partir das funções de onda e estados de energia de uma única partícula Os resultados obtidos mostram que a energia total em pontos quânticos de Ge são em geral maiores que em pontos quânticos de Si, independentemente do número de elétrons confinados. Isto acontece devido a massa efetiva menor dos elétrons no Ge que aumentam as energia de confinamento. Em relação ao papel das barreiras dielétricas, a energia total é sempre maior nos casos em que o ponto quântico está envolvido por SiO2. Fisicamente, isto se deve ao fato de que a barreira de confinamento do SiO2 (3.2 eV) é maior que a do HfO2 (1.5 eV). Barreiras mais baixas favorecem o aumento da extensão espacial das funções de onda, reduzindo a repulsão coulombiana dos elétrons confinados. Calculou se também o potencial químico dos pontos quânticos em função do número de elétrons confinados, e a energia adicional necessária para aprisionar mais um elétron nos pontos quânticos. Verificou-se que o potencial químico dos pontos quânticos de Ge são sempre maiores que nos de Si, por em o potencial químico para pontos quânticos envoltos em HfO2 são sempre maiores que no caso do SiO2. Em relação a energia adicional, observa-se que esta quantidade apresenta fortes oscilações e que varia entre 0 e 0.4 eV para todos os casos estudados. Se levarmos em conta que o fenômeno conhecido como bloqueio de Coulomb acontece quando a energia adicional é muito maior que a energia térmica (da ordem de 3=2kBT), este fenômeno são será observado quando houver poucos elétrons confinados nos pontos quânticos. Pontos Quânticos Hartree-Fock Muitos Corpos Quantum dot Hartree-Fock Many Bodies
28	Finite Element Approach of Electronic Structures / Approche par éléments finis de structures électroniques Fau, Amélie 10 December 2012 (has links) Grâce à l’amélioration des performances des outils expérimentaux et numériques, la mécanique des matériaux peut explorer des échelles de plus en plus fines. Une meilleure compréhension, voire une prédiction, des phénomènes locaux mis en jeu est alors espérée. Cette thèse s’intéresse à la plus petite échelle impliquée dans le comportement mécanique des matériaux, c.-à-d. les interactions entre noyaux dues au comportement des électrons, et notamment des électrons de valence. L’originalité de ce travail est dans la mise en place des éléments finis comme outil numérique de résolution de ce problème. Cette approche largement utilisée dans le domaine de la mécanique des structures fournit de puissants outils numériques permettant de résoudre le problème électronique. Des modèles de Hartree-Fock et post-Hatree-Fock sont implémentés, et les caractéristiques mécaniques des structures électroniques sont estimées. Ces résultats reposent sur de nombreuses approximations dues aussi bien à la modélisation qu’aux approximations numériques. Des estimateurs d’erreur sont développés pour analyser les résultats. / Since performances of experimental and numerical tools have been largely improved, mechanics of materials can explore smaller and smaller scales. Thus, a better comprehension, or even a prediction, of local phenomena associated with macroscopic deformations are hoped. This dissertation focuses on the smallest scale involved in mechanical behavior of materials, i.e. interactions between nuclei due to electrons behavior and especially to valence electrons. The originality of this work is setting up the finite element method as numerical tool to solve this problem. This approach largely used to solve structural mechanics problems provides powerful numerical tools to tackle electronic structures. The Hartree-Fock and post-Hartree-Fock models are employed, and mechanical properties of electronic structures are estimated. These estimates are based on a set of approximations of both model and numerical origins. Error estimates are proposed to analyze the accuracy of the results. Méthode des éléments finis Structures électroniques Modèles de Hartree-Fock Finite element method Electronic structures Hartree-Fock's models
29	Analytical Energy Gradients of Solvated Molecules / Analytiska Energigradienter av Lösta Molekyler Vitols, Erik January 2024 (has links) Optimisation of molecular structures in solvation is important in many fields, such as drugdesign. In order to optimise geometries, one needs nuclear energy gradients. To optimisestructures efficiently, analytical gradients are required. In this work, the analytical nucleargradients within the Conductor-like Screening Model (COSMO) for modelling solvation arederived and implemented in the quantum chemistry software VeloxChem. By validation withnumerical gradients of varying accuracy, agreement with the implemented analytical gradientwas found, demonstrating internally consistent analytical expressions. / Optimering av molekylära strukturer i lösning är viktigt inom många områden, såsomläkemedelsdesign. För att optimera geometrier behöver man energigradienter med avseendepå atomkärnorna, och för att optimera strukturer effektivt krävs analytiska gradienter. Idetta arbete härleds och implementeras de analytiska gradienterna inom COSMO-ramverketför lösning av molekyler i kvantkemimjukvaran VeloxChem. Genom jämförelser med numeriskagradienter av varierande noggrannhet fanns en överensstämmelse gentemot den implementer-ade analytiska gradienten, vilket visar på inbördes konsekventa analytiska uttryck. Hartree-Fock Polarisable Continuum Models COSMO Hartree-Fock Polariserbara Kontinuummodeller COSMO Physical Sciences Fysik
30	Lattice dynamics and electron correlations in mesoscopic systems Kambili, Agapi January 1999 (has links) No description available. 530.41

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