Modern Nuclear Physics: From Fundamentals to Frontiers
暫譯: 現代核物理:從基礎到前沿
Obertelli, Alexandre, Sagawa, Hiroyuki
- 出版商: Springer
- 出版日期: 2021-09-27
- 售價: $3,680
- 貴賓價: 9.5 折 $3,496
- 語言: 英文
- 頁數: 727
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 9811622884
- ISBN-13: 9789811622885
-
相關分類:
物理學 Physics
海外代購書籍(需單獨結帳)
商品描述
Tentative Table of Contents [ asterisk (*) for graduate level]
1. Concepts of quantum mechanics from the nuclear viewpoint
1.1 Genesis of quantum physics
1.2 Spin and Isospin
1.3 Quantum entanglement
1.4 Schrödinger equation
1.5 Quantum Tunneling in one dimension
1.6 Uncertainty relation
1.7 Symmetries and symmetry breaking
1.8 Dirac equation *)
1.9 Lagrangian and Path integral *)
1.10 Second quantization *)
2. Nuclear forces
2.1 Fundamental interactions
2.2 Nuclear force and symmetry constraints
2.3 Meson theory of nucleon-nucleon (NN) interaction
2.4 Phase shifts and nuclear potentials
2.5 Three-body forces
2.6 Chiral Effective Field Theory (ChEFT)*)
3. Nuclear Structure theory
3.0 Bird's eye view of nuclear models
3.1 Nuclear mean field
3.2 Random phase approximation
3.2 Energy density f
unctionals3.2.1 Pairing interactions and BCS/Bogolyubov approximation
3.3 Beyond the mean field approaches*)
3.3.1 Generator coordinate method (GCM)
3.3.2 Anti-symmetrized molecular dynamics (AMD)
3.4 The Monte Carlo shell models*)
3.5 Ab-initio approaches*)
3.5.1 No core shell model (NCSM)
3.5.2 Variational (VMC) and Green's function Monte Carlo (GFMC) approaches
3.5.3 Fermionic molecular dynamics (FMD)
4. Nuclear Structure phenomena and observables
4.1 Spectroscopic observables for shell structure
4.2 Collective oscillations
4.3 Short-range correlations
4.4 Superheavy elements
4.5 Hypernuclei
5. Radioactive ion beam physics
5.1 Radioactive ion beam accelerators
5.2 In-beam gamma-ray spectroscopy and inverse kinematics
5.3 Neutron-rich nuclei -halo and skin
5.4 Evolutio
n of nuclear shells with Isospin - island of inversion-5.5 Di-neutron correlations and nuclear superfluidity *)
5.6 Clusters in nuclei *)
6. Deformation and Rotation
6.1 Deformation of Molecules and Nuclei
6.2 Nuclear deformation and observables
6.3 Microscopic origin for nuclear deformations and prolate dominance
6.4 Measuring shapes
6.4.1 Hyperfine atomic structure from laser spectroscopy
6.4.2 Magnetic and Quadrupole Nuclear Resonance
6.4.3 Coulomb excitation
6.5 Shape and shape coexistence*)
6.6 Superdeformation and Hyperdeformation*)
6.7 Advances in gamma spectroscopy*)
7. Nuclear reactions
7.1 Overview of reaction mechanics
7.2 Elastic scattering
7.3 Direct reactions
7.1.1 Spectroscopic factors
7.1.2 Transfer rections
7.1.3 Quasifree scatterin
g7.1.4 Heavy-ion induced nucleon removal
7.4 Nuclear fusion
7.4.1 Solar energies, and p-p chain reaction and CNO cycle
7.4.2 Magnetic confinement and the ITER project *)
7.4.3 Inertial confinement *)
7.5 Nuclear fission
7.5.1 Macroscopic models
7.5.2 Microscopic models *)
7.5.3 Principle of a nuclear power plant *)
8. Celestial observables and terrestrial experiments
8.1 Nuclear Equation-of-States constrained by terrestrial observables
8.2 Neutron stars
8.3 Nucleosynthesis
8.4 Supernovae explosion *)
9. Nuclear physics and the standard model of elementary particle
9.1 Standard model
9.2 Lattice Quantum Chromodynamics for Nuclei *)
9.3 CK
商品描述(中文翻譯)
暫定目錄 [星號 (*) 表示研究生級別]
1. 從核子觀點看量子力學的概念
1.1 量子物理的起源
1.2 自旋與同位自旋
1.3 量子糾纏
1.4 薛丁格方程
1.5 一維量子隧道效應
1.6 不確定性關係
1.7 對稱性與對稱性破缺
1.8 狄拉克方程 *)
1.9 拉格朗日與路徑積分 *)
1.10 第二量子化 *)
2. 核力
2.1 基本相互作用
2.2 核力與對稱約束
2.3 輻子理論的核子-核子 (NN) 相互作用
2.4 相位移與核勢
2.5 三體力
2.6 手徑有效場論 (Chiral Effective Field Theory, ChEFT) *)
3. 核結構理論
3.0 核模型的鳥瞰圖
3.1 核平均場
3.2 隨機相位近似
3.2 能量密度泛函
3.2.1 配對相互作用與BCS/Bogolyubov近似
3.3 超越平均場的方法 *)
3.3.1 生成坐標法 (Generator Coordinate Method, GCM)
3.3.2 反對稱分子動力學 (Anti-symmetrized Molecular Dynamics, AMD)
3.4 蒙地卡羅殼模型 *)
3.5 首原理方法 *)
3.5.1 無核殼模型 (No Core Shell Model, NCSM)
3.5.2 變分 (Variational, VMC) 與格林函數蒙地卡羅 (Green's Function Monte Carlo, GFMC) 方法
3.5.3 费米子分子動力學 (Fermionic Molecular Dynamics, FMD)
4. 核結構現象與可觀測量
4.1 殼結構的光譜可觀測量
4.2 集體振盪
4.3 短程相關性
4.4 超重元素
4.5 超核
5. 放射性離子束物理
5.1 放射性離子束加速器
5.2 束內伽瑪射線光譜學與反向運動學
5.3 中子豐富核 - 光暈與外殼
5.4 隨同位自旋的核殼演化 - 反轉島
5.5 雙中子相關性與核超流性 *)
5.6 核內聚集體 *)
6. 變形與旋轉
6.1 分子與核的變形
6.2 核變形與可觀測量
6.3 核變形的微觀起源與橢圓優勢
6.4 測量形狀
6.4.1 來自激光光譜學的超精細原子結構
6.4.2 磁性與四極核共振
6.4.3 庫倫激發
6.5 形狀與形狀共存 *)
6.6 超變形與超超變形 *)
6.7 伽瑪光譜學的進展 *)
7. 核反應
7.1 反應力學概述
7.2 彈性散射
7.3 直接反應
7.1.1 光譜因子
7.1.2 轉移反應
7.1.3 準自由散射
7.1.4 重離子誘導的核子去除
7.4 核融合
7.4.1 太陽能、質子-質子鏈反應與CNO循環
7.4.2 磁約束與ITER計畫 *)
7.4.3 慣性約束 *)
7.5 核裂變
7.5.1 巨觀模型
7.5.2 微觀模型 *)
7.5.3 核電廠的原理 *)
8. 天體可觀測量與地面實驗
8.1 受地面可觀測量約束的核狀態方程
8.2 中子星
8.3 核合成
8.4 超新星爆炸 *)
9. 核物理與基本粒子的標準模型
9.1 標準模型
9.2 核的格點量子色動力學 *)
作者簡介
Alexandre Obertelli received his Ph.D. degree from the University of Paris XI, France, in 2005. He is Alexander-von-Humboldt professor at the Technical University of Darmstadt, Germany. He carries experiments on the structure of radioactive nuclei at the Radioactive Isotope Beam Factory of RIKEN, Japan, at CERN, Switzerland, and GSI/FAIR, Germany.
Hiroyuki Sagawa is a senior visiting scientist at RIKEN, Japan, and a professor emeritus at the University of Aizu, Japan. He obtained his Ph.D. degree from Tohoku University in 1975. After he worked at the Niels Bohr Institute in Denmark, Paris-Sud University in France, and the National Superconducting Cyclotron Laboratory in USA, he was appointed as a research associate at the University of Tokyo and then moved to the University of Aizu as a full professor. His work mainly involves nuclear structure and reaction theory, and he also actively contributes to book publishing programs.
作者簡介(中文翻譯)
亞歷山大·奧貝特利於2005年在法國巴黎第十一大學獲得博士學位。他是德國達姆施塔特工業大學的亞歷山大·馮·洪堡教授。他在日本RIKEN的放射性同位素束工廠、瑞士CERN以及德國GSI/FAIR進行有關放射性核結構的實驗。
佐川宏之是日本RIKEN的高級訪問科學家,以及日本會津大學的名譽教授。他於1975年在東北大學獲得博士學位。之後,他曾在丹麥尼爾斯·玻爾研究所、法國巴黎南大學和美國國家超導回旋加速器實驗室工作,隨後被任命為東京大學的研究助理,並轉至會津大學擔任正教授。他的研究主要涉及核結構和反應理論,並積極參與書籍出版計劃。
