Computational Materials Science hardcover english - 23 April 2018
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| Publisher | Springer-Verlag Berlin and Heidelberg GmbH & Co. KG |
| ISBN 13 | 9783662565407 |
| ISBN 10 | 3662565404 |
| Book Description | This textbook introduces modern techniques based on computer simulation to study materials science. It starts from first principles calculations enabling to calculate the physical and chemical properties by solving a many-body Schroedinger equation with Coulomb forces. For the exchange-correlation term, the local density approximation is usually applied. After the introduction of the first principles treatment, tight-binding and classical potential methods are briefly introduced to indicate how one can increase the number of atoms in the system. In the second half of the book, Monte Carlo simulation is discussed in detail. Problems and solutions are provided to facilitate understanding. Readers will gain sufficient knowledge to begin theoretical studies in modern materials research.This second edition includes a lot of recent theoretical techniques in materials research. With the computers power now available, it is possible to use these numerical techniques to study various physical and chemical properties of complex materials from first principles. The new edition also covers empirical methods, such as tight-binding and molecular dynamics. |
| About the Author | Dr. Kawazoe is a Professor and Professor Emeritus in New Industry Creation Hatchery Center, Tohoku University, Sendai, Japan. He is the author of over 1,000 ISI journal papers with more than 20,000 citations (h-index 63), over 50 books (including editing), and 10 patents on wide range in science and engineering, mainly computational materials science. Professor Kawazoe is the founder of ACCMS (Asian Consortium on Computational Materials Science) with the history of 20 years, and has served hard/soft computer resources to researchers in developing countries. He also contributed to start Japan Nano-Science and -Engineering Society 15 years ago and was the President. These societies are now matured and spread out attracting more members. He was a Mega-grant Leader (1 Million US$/year) in Russian Academy of Science from 2012 to 2015 on gas hydrate research. He holds a number of positions in Japan and worldwide; an MRSI honorable member, Advisor Professor of Fudan University, China, President of NPO Center for Interdisciplinary Sciences, Advisor to Japan Gene Research Laboratory and more. He was invited by a number of research/teaching organizations, including Max-Planck Institute for Nuclear Physics, University of California Berkeley, Kuwait Institute of Science and Technology and The University of Tokyo. Professor Kawazoe has started his research in nuclear physics as a hard core theoretical physicist. He was one of the first generation to use computers in research in Japan. He contributed to start the Education Center for Information Processing, Tohoku University in 1982. He was the first implementing bitnet (present Internet) at a Japanese National University. Later he was promoted to Director of the Computer Center in Tohoku University. He became a full professor in 1990 at the Institute for Materials Research, one of the most famous institutes worldwide. He developed a computer code for materials design, including a number of original tools which other similar codes cannot compute, for example, absolute energy estimation of electronic levels and time course simulation of chemical reactions. He revealed that the present standard of theoretical modeling, such as Hubbard model, is incorrect and showed for example the true origin of magnetism which should change the standard textbooks in solid state physics, quantum chemistry and computational materials science. Dr. Ohno is a Professor in Yokohama National University, who is working in the field of computational materials science and physics. His Doctor thesis at Tohoku University was |
| Language | English |
| Author | Kaoru Ohno, Keivan Esfarjani, Yoshiyuki Kawazoe |
| Publication Date | 23 April 2018 |
| Number of Pages | 427 |
Computational Materials Science hardcover english - 23 April 2018
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