Synopses & Reviews
Studying the dynamics of a large number of particles interacting through long-range forces, commonly referred to as the "N-body problem", is a central aspect of many different branches of physics. In recent years, physicists have made significant advances in the development of fast N-body algorithms to deal efficiently with such complex problems. This book gives a thorough introduction to these so-called "tree methods", setting out the basic principles and giving many practical examples of their use. The authors assume no prior specialist knowledge, and they illustrate the techniques throughout with reference to a broad range of applications. The book will be of great interest to graduate students and researchers working on the modeling of systems in astrophysics, plasma physics, nuclear and particle physics, condensed matter physics and materials science.
Review
"The book will interest graduate students and researchers working on the modeling of systems in material science and astro, plasma, nuclear and particle, and condensed matter physics. Includes an 8-page alphabetical reference section." Optics and Photonics News
Synopsis
An introduction to the fast N-body algorithms used in many branches of computational physics.
Synopsis
The first book to give a thorough introduction to the modern, fast N-body algorithms, or âtree methodsâ, used in many different branches of physics. Sets out clearly the basic principles and gives many practical examples of their use.
Description
Includes bibliographical references (p. 157-164) and index.
Table of Contents
1. Introduction; 2. Basic structure of the hierarchical tree method; 3. Open boundary problems; 4. Optimisation of hierarchical tree codes; 5. Periodic boundary conditions; 6. Periodic boundary problems; 7. The fast multipole method; Appendices.