科学技术中的纳米工程:纳米设计概论NANO-ENGINEERING IN SCIENCE AND TECHNOLOGY
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分類: 图书,进口原版书,科学与技术 Science & Techology ,
作者: Michael Rieth 著
出 版 社: Penguin
出版时间: 2003-12-1字数:版次: 1页数: 151印刷时间: 2003/01/01开本:印次: 1纸张: 胶版纸I S B N : 9789812380739包装: 精装内容简介
This important book provides a vivid introduction to the procedures, techniques, problems and difficulties of computational nano-engineering and design. The reader is given step by step the scientific background information, for an easy reconstruction of the explanations. The focus is laid on the molecular dynamics method, which is well suited for explaining the topic to the reader with just a basic knowledge of physics. Results and conclusions of detailed nano-engineering studies are presented in an instructive style. In summary, the book puts readers immediately in a position to take their first steps in the field of computational nano-engineering and design.
目录
Preface
Chapter 1 Introduction
Chapter 2 Interatomic Potentials
2.1 Quantum Mechanical Treatment of the Many-Particle Problem
2.2 Potential Energy Surface
2.3 Pair Potential Approximation
2.4 Advantages and Limitations of the Pair Potential Approximation
2.5 Phenomenological Potentials
2.5.1 Buckingham Potentials
2.5.2 Morse Potentials
2.5.3 Lennard-Jones Potentials
2.5.4 Barker Potentials for Krypton and Xenon
2.6 Pseudo Potentials
2.6.1 Schommers Potential for Aluminium
2.7 Many-Body Potentials
Chapter 3 Molecular Dynamics
3.1 Models for Molecular Dynamics Calculations
3.1.1 Initial Values
3.1.2 Isothermal Equilibration
3.1.3 Boundaries
3.1.4 Nano-Design and Nano-Construction
3.2Visualization Techniques
3.3Solution of the Equations of Motion
3.3.1 Verlet Algorithms
3.3.2 Nordsieck/Gear Predictor-Corrector
3.3.3 Assessment of the Integration Algorithms
3.3.4 Other Methods
3.3.5 Normalized Quantities
3.4Efficient Force Field Computation
3.4.1 Force Derivation
3.4.2 List Method
3.4.3 Cell Algorithms
3.4.4 SPSM Procedure
3.4.5 Discussion
3.5Implementation
Chapter 4 Characterization of Nano-Systems
4.1 Thermal Stability
4.2 Basic Material Properties
4.3 Wear at the Nanometer Level
4.4 Mean Values and Correlation Functions
4.4.1 Ensemble Theory
4.4.2 Pair Correlation Function
4.4.3 Mean-Square Displacement
4.4.4 Velocity Auto-Correlation Function
4.4.5 Generalized Phonon Density of States
4.4.6 Structure Factor
4.4.7 Additional Remarks
Chapter 5 Nano-Engineering -- Studies and Conclusions
5.1 Functional Nanostructures
5.2 Nano-Machines
5.3 Nano-Clusters
5.3.1 Structural Examinations
5.3.2 Dynamics of the A1500 States
5.3.3 Influence of the Initial Conditions
5.3.4 Influence of the Initial Temperature
5.3.5 Influence of the Crystalline Structure
5.3.6 Influence of the Outer Shape and Cluster Size
5.3.7 Influence of the Interaction Potential (Material)
Bibliography
Index