The Embedding Method for Electronic Structure

The Embedding Method for Electronic Structure

Author: John E. Inglesfield

Publisher:

Published: 2015

Total Pages:

ISBN-13: 9780750310420

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The embedding method is a way of solving the Schrödinger equation for electrons in a region of space joined to a substrate. It is a flexible method, as well as surface electronic structure, it can be used to study interfaces, adsorbates, conductance through molecules and confined electrons, and even used to calculate the energy distribution of electrons confined by nanostructures. Embedding can be applied to solving Maxwell's equations, leading to an efficient way of finding the photonic and plasmonic band structure. In this book, John Inglesfield reviews the embedding method for calculating electronic structures and its application within modern condensed matter physics research. Supplemented with demonstration programmes, codes and examples, this book provides a thorough review of the method and would be an accessible starting point for graduate students or researchers in physics and physical chemistry wishing to understand and use the method, or as a single up to date and authoritative reference source for those already using the method.


The Fragment Molecular Orbital Method

The Fragment Molecular Orbital Method

Author: Dmitri Fedorov

Publisher: CRC Press

Published: 2009-05-14

Total Pages: 304

ISBN-13: 1420078496

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Answering the need to facilitate quantum-chemical calculations of systems with thousands of atoms, Kazuo Kitaura and his coworkers developed the Fragment Molecular Orbital (FMO) method in 1999. Today, the FMO method can be applied to the study of whole proteins and protein-ligand interactions, and is extremely effective in calculating the propertie


Interacting Electrons

Interacting Electrons

Author: Richard M. Martin

Publisher: Cambridge University Press

Published: 2016-06-30

Total Pages: 843

ISBN-13: 1316558568

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Recent progress in the theory and computation of electronic structure is bringing an unprecedented level of capability for research. Many-body methods are becoming essential tools vital for quantitative calculations and understanding materials phenomena in physics, chemistry, materials science and other fields. This book provides a unified exposition of the most-used tools: many-body perturbation theory, dynamical mean field theory and quantum Monte Carlo simulations. Each topic is introduced with a less technical overview for a broad readership, followed by in-depth descriptions and mathematical formulation. Practical guidelines, illustrations and exercises are chosen to enable readers to appreciate the complementary approaches, their relationships, and the advantages and disadvantages of each method. This book is designed for graduate students and researchers who want to use and understand these advanced computational tools, get a broad overview, and acquire a basis for participating in new developments.


Multiple Scattering Theory

Multiple Scattering Theory

Author: Dr J. S. Faulkner

Publisher: Iph001

Published: 2018-12-27

Total Pages: 400

ISBN-13: 9780750314886

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In 1947, it was discovered that multiple scattering theory (MST) can be used to solve the Schröedinger equation for the stationary states of electrons in a solid. Written by experts in the field, J S Faulkner, G Malcolm Stocks and Yang Wang, this book collates the results of numerous studies in the field of MST and provides a comprehensive, systematic approach to it. For many scientists, students and engineers working with multiple scattering programmes, this will be a useful guide to help expand the existing knowledge of MST as well as understanding its future implications.


Molecular Electronic-Structure Theory

Molecular Electronic-Structure Theory

Author: Trygve Helgaker

Publisher: John Wiley & Sons

Published: 2014-08-11

Total Pages: 949

ISBN-13: 1119019559

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Ab initio quantum chemistry has emerged as an important tool in chemical research and is appliced to a wide variety of problems in chemistry and molecular physics. Recent developments of computational methods have enabled previously intractable chemical problems to be solved using rigorous quantum-mechanical methods. This is the first comprehensive, up-to-date and technical work to cover all the important aspects of modern molecular electronic-structure theory. Topics covered in the book include: * Second quantization with spin adaptation * Gaussian basis sets and molecular-integral evaluation * Hartree-Fock theory * Configuration-interaction and multi-configurational self-consistent theory * Coupled-cluster theory for ground and excited states * Perturbation theory for single- and multi-configurational states * Linear-scaling techniques and the fast multipole method * Explicity correlated wave functions * Basis-set convergence and extrapolation * Calibration and benchmarking of computational methods, with applications to moelcular equilibrium structure, atomization energies and reaction enthalpies. Molecular Electronic-Structure Theory makes extensive use of numerical examples, designed to illustrate the strengths and weaknesses of each method treated. In addition, statements about the usefulness and deficiencies of the various methods are supported by actual examples, not just model calculations. Problems and exercises are provided at the end of each chapter, complete with hints and solutions. This book is a must for researchers in the field of quantum chemistry as well as for nonspecialists who wish to acquire a thorough understanding of ab initio molecular electronic-structure theory and its applications to problems in chemistry and physics. It is also highly recommended for the teaching of graduates and advanced undergraduates.


Electronic Structure

Electronic Structure

Author:

Publisher: Elsevier

Published: 2000-07-19

Total Pages: 1071

ISBN-13: 0080530753

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This book is the second volume in the Handbook of Surface Science series and deals with aspects of the electronic structure of surfaces as investigated by means of the experimental and theoretical methods of physics. The importance of understanding surface phenomena stems from the fact that for many physical and chemical phenomena, the surface plays a key role: in electronic, magnetic, and optical devices, in heterogenous catalysis, in epitaxial growth, and the application of protective coatings, for example. Therefore a better understanding and, ultimately, a predictive description of surface and interface properties is vital for the progress of modern technology. An investigation of surface electronic structure is also central to our understanding of all aspects of surfaces from a fundamental point of view. The chapters presented here review the goals achieved in the field and map out the challenges ahead, both in experiment and theory.


Electronic Structure of Clusters

Electronic Structure of Clusters

Author:

Publisher: Academic Press

Published: 1998-04-10

Total Pages: 501

ISBN-13: 0080582540

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Advances in Quantum Chemistry publishes surveys of current developments in the rapidly developing field of quantum chemistry--a field that falls between the historically established areas of mathematics, physics, chemistry, and biology. With invited reviews written by leading international researchers, each presenting new results, this quality serial provides a single vehicle for following progress in this interdisciplinary area.


Modern Electronic Structure Theory

Modern Electronic Structure Theory

Author: D. R. Yarkony

Publisher: World Scientific

Published: 1995

Total Pages: 785

ISBN-13: 9812832114

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Modern Electronic Structure Theory provides a didactically oriented description of the latest computational techniques in electronic structure theory and their impact in several areas of chemistry. The book is aimed at first year graduate students or college seniors considering graduate study in computational chemistry, or researchers who wish to acquire a wider knowledge of this field.