Towards an ab initio description of correlated materials

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Towards an ab initio description of correlated materials

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TitleInfo

Title

Towards an ab initio description of correlated materials

Name (type = personal)

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Yee

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Chuck-Hou

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1982-

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Chuck-Hou Yee

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author

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Haule

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Kristjan

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Kristjan Haule

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Gabriel

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Gabriel Kotliar

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Zamolodchikov

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Alexander

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Alexander Zamolodchikov

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Gershensen

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Michael

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Michael Gershensen

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Tremblay

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Andre-Marie

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Andre-Marie Tremblay

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Rutgers University

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Graduate School - New Brunswick

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theses

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2012

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2012-10

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eng

Abstract (type = abstract)

Strongly-correlated materials are a rich playground for physical phenomena, exhibiting complex phase diagrams with many competing orders. Ab initio insights into materials combined with physical ideas provide the ability to identify the organizing principles driving the correlated electronic behavior and pursue first-principles design of new compounds. Realistic modeling of correlated materials is an active area of research, especially with the recent merger of density functional theory (DFT) with dynamical mean-field theory (DMFT). This thesis is structured in two parts. The first describes the methods and algorithmic developments which drive advances in DFT+DMFT. In Ch. 2 and 3, we provide an overview of the two foundational theories, DMFT and DFT. In the second half of Ch. 3, we describe some of the principles guiding the combination of the two theories to form DFT+DMFT. In Ch. 4, we describe the algorithm lying at the heart of modern DFT+DMFT implementations, the hybridization expansion formulation of continuous-time quantum monte carlo (CTQMC) for the general Anderson impurity problem, as well as a fast rejection algorithm for speeding-up the local trace evaluation. The final chapter in the methods section describes an algorithm for direct sampling of the partition function, and thus the free energy and entropy, of simple Anderson impurity models within CTQMC. The second part of the thesis is a collection of applications of our emph{ab initio} approach to key correlated materials. We first apply our method to plutonium binary alloys (Ch. 6), which when supplemented with slave-boson mean-field theory, allows us to understand the observed photoemission spectra. Ch. 7 describes the computation of spectra and optical conductivity for rare-earth nickelates grown as epitaxial thin films. In the final two chapters, we turn our attention to the high-temperature superconductors. In the first, we show that the charge-transfer energy is a key chemical variable which controls the superconducting transition temperatures across the cuprate families. In the second, we extend this idea towards first-principles design of cuprates by exploring a new family of copper oxysulfides.}

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Physics and Astronomy

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Rutgers University Electronic Theses and Dissertations

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electronic resource

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Extent

xii, 153 p. : ill.

Note (type = degree)

Ph.D.

Note (type = bibliography)

Includes bibliographical references

Note (type = statement of responsibility)

by Chuck-Hou Yee

Subject (authority = ETD-LCSH)

Topic

Mean field theory

Subject (authority = ETD-LCSH)

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Density functionals

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http://hdl.rutgers.edu/1782.1/rucore10001600001.ETD.000067031

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Graduate School - New Brunswick Electronic Theses and Dissertations

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doi:10.7282/T3N29VPD

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ETD doctoral

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Rights

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The author owns the copyright to this work.

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Yee

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Chuck-Hou

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2012-08-22 16:04:52

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Chuck-Hou Yee

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Rutgers University. Graduate School - New Brunswick

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I hereby grant to the Rutgers University Libraries and to my school the non-exclusive right to archive, reproduce and distribute my thesis or dissertation, in whole or in part, and/or my abstract, in whole or in part, in and from an electronic format, subject to the release date subsequently stipulated in this submittal form and approved by my school. I represent and stipulate that the thesis or dissertation and its abstract are my original work, that they do not infringe or violate any rights of others, and that I make these grants as the sole owner of the rights to my thesis or dissertation and its abstract. I represent that I have obtained written permissions, when necessary, from the owner(s) of each third party copyrighted matter to be included in my thesis or dissertation and will supply copies of such upon request by my school. I acknowledge that RU ETD and my school will not distribute my thesis or dissertation or its abstract if, in their reasonable judgment, they believe all such rights have not been secured. I acknowledge that I retain ownership rights to the copyright of my work. I also retain the right to use all or part of this thesis or dissertation in future works, such as articles or books.

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Open

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