Informationen : 07, Sektion Mathematik / Technische Universität Dresden

27 May 2013

Schriftenreihe

Schriftenreihe, Mathematik

series, mathematics

info:eu-repo/classification/ddc/510

ddc:510

Alguns aspectos da obra matematica de Joaquim Gomes de Souza / Some aspects of the mathematical work of Joaquim Gomes de Souza

Nascimento, Carlos Ociran Silva

12 August 2018

Orientador: Eduardo Sebastiani Ferreira / Dissertação (mestrado profissional) - Universidade Estadual de Campinas, Instituto de Matematica, Estatistica e Computação Cientifica / Made available in DSpace on 2018-08-12T16:45:36Z (GMT). No. of bitstreams: 1 Nascimento_CarlosOciranSilva_M.pdf: 1149568 bytes, checksum: 55e0d949e2788fe967b2b439442bc9f1 (MD5) Previous issue date: 2008 / Resumo: Este trabalho é voltado para a área de História da Matemática, notadamente a do século XIX, tendo como um dos objetivos, fornecer material para o ensino de Cálculo e História da matemática, tomando como base o resgate da vida e obra do matemático maranhense Joaquim Gomes de Souza, com foco em uma de suas proposições, a saber: Redução de Funções Descontínuas à Forma de Funções Contínuas. Tal resultado tem relação direta com a série de Fourier, convergência de séries, continuidade, derivada, culminando com o exemplo de função contínua sem derivada de Weierstrass. Constitui-se, dessa forma, material com o fim de auxiliar pesquisadores, professores e alunos nessas disciplinas. / Abstract: This work belongs to the area of History of Mathematics, especially to the one of the nineteenth century, with the main objective of providing educational materials for the teaching of Calculus and History of the mathematics, recovering the life and work of the mathematician from Maranhão, Joaquim Gomes de Souza, with a focus on one of their propositions, namely: Reduction of discontinuous Functions to the form of Continuous Functions. This result is related has directey with the convergence of series, continuity, derivative, culminating with the example of continuous function without derivative of the Weierstrass. constituting, this way, material to support researchers, teachers and students in this discipline. / Mestrado / Historia da Matematica / Mestre em Matemática

Souza, Joaquim Gomes de - 1829-1863

Matemáticos - Brasil - Biografia

Matemática - História

Funções contínuas

Séries (Matemática)

Mathematicians - Brazil

Mathematics - History

Functions, continuous

Series (Mathematics)

The Construction of Robust Potential Energy Surfaces from First Principles and Machine Learning

Bandi, Sasaank

January 2024

Potential energy surfaces are fundamental to materials simulation, providing acomprehensive landscape of the energy variations as a function of atomic positions within a system. These surfaces are crucial for understanding the behavior of materials at the atomic and molecular levels. By mapping out the potential energy surface, researchers can predict stable configurations, transition states, and thermodynamic and kinetic observables, essential for the design of novel materials. However, constructing accurate potential energy surfaces presents significant challenges due to the complexity constructing a potential with nearly the same accuracy of quantum mechanical calculations, the transferability to explore the high-dimensional space of atomic configurations, and the efficiency to be evaluated without the need for extensive computational resources. In this work, group theoretical irreducible derivativemethods are used to construct accurate Taylor series expansions of the potential energy surface. A new condition number optimized basis is developed which guarantees no amplification of error at the smallest computational cost allowed by group theory. Using this highly efficient method, the physics of the metal-insulator transition in LuNiO₃ is investigated within both a purely harmonic model and simplified anharmonic model, yielding reasonable and good agreement with the experimental phase transition temperature, respectively. Then the irreducible derivatives approach is used to benchmark the phonon anharmonicity of the several popular machine learning potentials: Gaussian approximation potentials, artificial neural network potentials, and graph neural network potentials. The benchmark indicated that the graph neural network potentials had the ability to accurate reproduce quantum mechanical derivatives up to 5th-order. Finally, insights from the benchmark are used to train an accurate graph neural network potential for strongly correlated UO₂ which yielded excellent agreement with quantum mechanical calculations and experiment. These methodological advancements underscore the potential of combining grouptheoretical approaches with cutting-edge machine learning techniques to enhance the precision and efficiency of materials simulations. By achieving high accuracy in modeling complex phenomena such as phase transitions and phonon anharmonicity, this work paves the way for future studies to not only explore the design of novel materials with unprecedented properties, but to design new machine learning techniques where group theory is built from the ground up.

Materials science

Condensed matter

Potential energy surfaces

Machine learning

Surfaces (Physics)

Taylor's series (Mathematics)

Gaussian measures

Neural networks (Computer science)

Quantum computing