Atomic and Molecular Scattering
- 1st Edition - January 28, 1971
- Latest edition
- Editor: Berni Alder
- Language: English
Methods in Computational Physics, Volume 10: Atomic and Molecular Scattering presents the digital methods used in producing quantitative results from the theory of atomic and… Read more
Description
Description
Methods in Computational Physics, Volume 10: Atomic and Molecular Scattering presents the digital methods used in producing quantitative results from the theory of atomic and molecular scattering. This volume contains seven chapters that specifically consider the methods that produce quantum mechanical wavefunctions from which cross sections are deduced. Chapter 1 covers the solutions of the systems of coupled integro-differential equations using the Hartree and Hartree-Fock methods for atomic structure calculations and the eigenfunction expansion method for electron-atom collision calculations. Chapter 2 treats the translation of the formal results into a generally applicable, efficient, and numerically stable method for solving quantum-mechanical scattering problems. Chapter 3 discusses the exponential method of solution as applied in inelastic scattering, the reaction coordinates for a collinear reactive system, and the modifications of the computational method required for reactive scattering. Chapter 4 outlines the theory and the calculational techniques involved in the use of algebraic expansions in scattering problems, while Chapter 5 deals with the solution of the close-coupled equations. Chapter 6 evaluates the collision between two quantum-mechanical systems with internal structure using the quantum-mechanical operator equations. Lastly, Chapter 7 focuses on the principles and applications of classical trajectory methods.
Table of contents
Table of contents
Contributors
Preface
Numerical Solutions of the Integro-Differential Equations of Electron-Atom Collision Theory
I. Introduction
II. The Integro-Differential Equations
III. Solutions in the Asymptotic Region
IV. Iterative Methods
V. Reduction to a System of Coupled Differential Equations
VI. Reduction to Systems of Algebraic Equations
VII. Approximate Solutions
VIII. Computer Programs
References
Quantum Scattering Using Piecewise Analytic Solutions
I. Introduction
II. Constructing Zeroth-Order Solutions
III. Evaluation of Accuracy
IV. Matching Boundary Conditions
V. Computational Estimates and Efficiency
IV. Comparison with Numerical Methods
References
Quantum Calculations in Chemically Reactive Systems
I. Introduction
II. Inelastic Scattering
III. Coupled Equations in Reaction Coordinates
IV. Computational Methods and S Matrix
V. Numerical Examples
VI. Conclusion
Appendix
References
Expansion Methods for Electron-Atom Scattering
I. Introduction
II. Calculation of Scattering Cross Sections
III. Determination of Scattering Wavefunctions
IV. Matrix Elements and Integrals
V. Computational Details and Results
Appendix A. Function Definitions
Appendix B. Evaluation of Special Functions
References
Calculations of Cross Sections for Rotational Excitation of Diatomic Molecules by Heavy Particle Impact: Solution of the Close-Coupled Equations
I. Introduction
II. General Theory
III. Numerical Methods
IV. Computer Program
V. Discussion
Note Added in Proof
Appendix: Evaluation of Coupling Matrix Elements
References
Amplitude Densities in Molecular Scattering
I. Introduction
II. Integral and Differential Equations for the Amplitude Density Functions
III. Stability of the Amplitude Density Equations
IV. The Voltera Equation
V. Differential Equations for the T Matrix
VI. Complex Arithmetic
References
Classical Trajectory Methods
I. Introduction
II. The Technology of the Method
III. Applications
References
Author Index
Subject Index
Contents Of Previous Volumes
Product details
Product details
- Edition: 1
- Latest edition
- Published: December 2, 2012
- Language: English
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