This reference text demonstrates how molecular dynamics can be used in practice to achieve a precise understanding of structural properties for systems devoid of any order beyond the first interatomic distances. The reader will learn the basic principles underlying molecular dynamics with a special emphasis on first-principles methodology. A roadmap of correct and efficient use is also provided using clear examples. The book concludes with a set of results that exemplify the level of accuracy and information inherent in (first-principles) molecular dynamics methodology when applied to amorphous and glassy materials. While the majority of systems studied are disordered chalcogenides, the ideas, concepts and methodologies involved are easily applicable to any system, providing a universal manual well-adapted to a wide range of practitioners, from graduate students to experienced researchers.
Key Features:
- Describes the structure of amorphous materials using molecular dynamics through research conducted by a single author over an extended period of time
- Demonstrates how molecular dynamics can be used in practice to achieve a precise understanding of structural properties for systems devoid of any order beyond the first interatomic distances
- Provides a roadmap of correct and efficient use using clear examples
- Includes a set of results that exemplify the level of accuracy and information inherent in (first-principles) molecular dynamics methodology when applied to amorphous and glassy materials
- Covers ideas, concepts and methodologies that are easily applicable to any system
- Provides a universal manual well-adapted to a wide range of practitioners, from graduate students to experienced researchers
表中的内容
Preface
About the Author
Acknowledgments
1 Introduction
2 Amorphous materials via atomic-scale modelling
3 Molecular dynamics to describe (amorphous) materials
4 A practical roadmap for FPMD on amorphous materials
5 Cases treated via Classical Molecular Dynamics
6 The atomic structure of disordered networks
7 The effect of pressure on the structure of glassy Ge Se2 and Ge Se4
8 Structural changes with composition in Gex Se1−x glassy chalcogenides
9 Moving ahead, better and bigger: Ge S2, Ge Se9 and Ge Se4 vs Ge S4
10 Accounting for dispersion forces: glassy Ge Te4 and related examples
11 Ternary systems for applications: meeting the challenge
12 Past, Present and Future
关于作者
Dr Carlo Massobrio is a first-class research director at the Institute of Physics and Chemistry of Materials at CNRS/University of Strasbourg in France. Dr Massobrio has researched molecular dynamics for over 35 years.
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