基本信息
内容简介
书籍
数学书籍
Nuclear Models is a thorough introduction to the most important concepts and methods in this field. It is for students of theoretical and experimental physics, and scientists needing a reference and exercise book for this.subject. The book presents the necessary mathematical tools along with many examples and worked problems.Rather than presenting a large humber of results, the emphasis is on a discussion of the physical ideas underlying the models and the mathematical techniques employed.Readers with a background in quantum mechanics will thus become acquainted with the necessary advanced methods from group theory and many-body physics.
In addition to the standard collective and single-particle models, a number of current topics such as relativistic mean-field models and high-spin states are discussed...
数学书籍
Nuclear Models is a thorough introduction to the most important concepts and methods in this field. It is for students of theoretical and experimental physics, and scientists needing a reference and exercise book for this.subject. The book presents the necessary mathematical tools along with many examples and worked problems.Rather than presenting a large humber of results, the emphasis is on a discussion of the physical ideas underlying the models and the mathematical techniques employed.Readers with a background in quantum mechanics will thus become acquainted with the necessary advanced methods from group theory and many-body physics.
In addition to the standard collective and single-particle models, a number of current topics such as relativistic mean-field models and high-spin states are discussed...
目录
1. Introduction .
1.1 Nuclear Structure Physics
1.2 The Basic Equation
1.3 Microscopic versus Collective Models
1.4 The Role of Symmetries
2. Symmetries
2.1 General Remarks
2.2 Translation
2.2.1 The Operator for Translation
2.2.2 Translational Invariance
2.2.3 Many-Particle Systems
2.3 Rotation
2.3.1 The Angular Momentum Operators
2.3.2 Representations of the Rotation Group
2.3.3 The Rotation Matrices
2.3.4 SU(2) and Spin
2.3.5 Coupling of Angular Momenta
2.3.6 Intrinsic Angular Momentum
2.3.7 Tensor Operators
2.3.8 The Wigner-Eckart Theorem
1.1 Nuclear Structure Physics
1.2 The Basic Equation
1.3 Microscopic versus Collective Models
1.4 The Role of Symmetries
2. Symmetries
2.1 General Remarks
2.2 Translation
2.2.1 The Operator for Translation
2.2.2 Translational Invariance
2.2.3 Many-Particle Systems
2.3 Rotation
2.3.1 The Angular Momentum Operators
2.3.2 Representations of the Rotation Group
2.3.3 The Rotation Matrices
2.3.4 SU(2) and Spin
2.3.5 Coupling of Angular Momenta
2.3.6 Intrinsic Angular Momentum
2.3.7 Tensor Operators
2.3.8 The Wigner-Eckart Theorem
