This book is a compilation of the latest theoretical methods for treating models in nuclear reactions. Initial chapters in this volume explain different aspects of time-dependent nuclear density functional theory, such as numerical calculations, density constrained models, multi-nucleon transfer reactions, and super fluid time-dependent density functional theory.
In addition, the volume also presents chapters covering other topics in nuclear physics, such as quantum molecular dynamics, cluster models in stable and unstable nuclei, chain structure theory in light nuclei, many-body systems and more. The volume is intended as a guidebook for graduate students and researchers to understand recent theories used in applied nuclear particle physics and astrology.
Table of Contents
Chapter 1
- Numerical Calculations of TDHF
Chapter 2
- Density Constrained TDHF
Chapter 3
- Multinucleon Transfer Reaction in Time-Dependent Hartreefock Theory
Chapter 4
- Nuclear Reactions and Superfluid Time Dependent Density Functional Theory
Chapter 5
- Counting Particles in Microscopic Systems
Chapter 6
- Large Amplitude Collective Dynamic Beyond the Independent Particle/Quasiparticle Picture
Chapter 7
- AMD Approach to Go Beyond the Mean Field
Chapter 8
- Reaction Dynamics of Complex Nuclei at Low Energy Within a Molecular Picture
Chapter 9
- Kadanoff-Baym Dynamics for Strongly Coupled Relativisticquantum Systems
Chapter 10
- Linear Chain Structure in Light Nuclei
Chapter 11
- Cluster States in Stable and Unstable Nuclei
Chapter 12
- Molecular Dynamics Approach to Nuclear Manybosystems
Chapter 13
- Dynamical Study on the Synthesis of Superheavy Elements
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Author
- Yoritaka Iwata
