本書完整系統地介紹了量子標度理論的知識。本書內容深入淺出,層次分明,參考文獻豐富。它既可作一般有興趣的讀者了解該領域的入門讀物,也可用做大專院校的教材,或供大學高年級學生和研究生自學使用,對相關領域的研究人員也有很大的參考價值。 此書為英文版。
基本介紹
- 書名:多體系中的量子標度理論
- 作者:MucioA.Continention
- ISBN:7506266326
- 頁數:188頁
- 出版社:世界圖書出版公司
- 出版時間:2004年4月1日
- 開本:32k
- 品牌:世界圖書出版公司北京公司
內容簡介,圖書目錄,
內容簡介
本書完整系統地介紹了量子標度理論的知識。本書內容深入淺出,層次分明,參考文獻豐富。它既可作一般有興趣的讀者了解該領域的入門讀物,也可用做大專院校的教材,或供大學高年級學生和研究生自學使用,對相關領域的研究人員也有很大的參考價值。
此書為英文版。
此書為英文版。
圖書目錄
Preface
Chapter1 Scaling Theory of Quantum Critical Phenomena
1.1 Quantum Phase Transitions
1.2 Renormalization Group and Scaling Relations
1.3 The Critical Exponents
1.4 Scaling Properties Close to a Zero Temperature Fixed Point
1.5 Extension to Finite Temperatures
Chapter2 Landau and Geussian Theories
2.1 Introduction
2.2 Landau Theory of Phase Transitions
2.3 Gaussian Approximation
2.4 Gaussian Approximation
2.5 Goldstone Mode
Chapter3 Renormalization Group:the c-expansion
3.1 The Landau-Wilson Functional
3.2 The Renormalization Group
Chapter4 Quantum Phase Transitions
4.1 Effective Action for a Nearly Ferromagnetic Metal
4.2 The Quantum Paramagnetic-to-Ferromagnetic Transition
4.3 Extension to Finite Temperatures
4.4 Effective A ction Close to a Spin Density Wave Instability
4.5 Gaussian Effective Actions
4.6 Field-Dependent Free Energy
Chapter5 Real Space Renormalization Group Approach
5.1 Introduction
5.2 The Ising Model in a Transverse Field
5.3 Conclusion
Chapter6 Heaavy Fermions
6.1 Introduction
6.2 Scaling Analysis
6.3 Conclusions
Chapter7 A Microscopic Model for Heavy Fermions
7.1 Introduction
7.2 Susceptibility and Wilson Ratio
7.3 Resistivity and Kadowaki-Woods Ratio
7.4 Critical Regime
7.5 Local Regime and One-Parameter Scling
……
Chapter8 Metal-Insulator Transitions
Chapter9 Density-Driven Metal-Insulator Transitions
Chapter10 Mott Transitions
Chapter11 The Non-Linear Sigma Model
Chapter12 Fluctuation-Induced Quantum Phase
Bibliography
Index
Chapter1 Scaling Theory of Quantum Critical Phenomena
1.1 Quantum Phase Transitions
1.2 Renormalization Group and Scaling Relations
1.3 The Critical Exponents
1.4 Scaling Properties Close to a Zero Temperature Fixed Point
1.5 Extension to Finite Temperatures
Chapter2 Landau and Geussian Theories
2.1 Introduction
2.2 Landau Theory of Phase Transitions
2.3 Gaussian Approximation
2.4 Gaussian Approximation
2.5 Goldstone Mode
Chapter3 Renormalization Group:the c-expansion
3.1 The Landau-Wilson Functional
3.2 The Renormalization Group
Chapter4 Quantum Phase Transitions
4.1 Effective Action for a Nearly Ferromagnetic Metal
4.2 The Quantum Paramagnetic-to-Ferromagnetic Transition
4.3 Extension to Finite Temperatures
4.4 Effective A ction Close to a Spin Density Wave Instability
4.5 Gaussian Effective Actions
4.6 Field-Dependent Free Energy
Chapter5 Real Space Renormalization Group Approach
5.1 Introduction
5.2 The Ising Model in a Transverse Field
5.3 Conclusion
Chapter6 Heaavy Fermions
6.1 Introduction
6.2 Scaling Analysis
6.3 Conclusions
Chapter7 A Microscopic Model for Heavy Fermions
7.1 Introduction
7.2 Susceptibility and Wilson Ratio
7.3 Resistivity and Kadowaki-Woods Ratio
7.4 Critical Regime
7.5 Local Regime and One-Parameter Scling
……
Chapter8 Metal-Insulator Transitions
Chapter9 Density-Driven Metal-Insulator Transitions
Chapter10 Mott Transitions
Chapter11 The Non-Linear Sigma Model
Chapter12 Fluctuation-Induced Quantum Phase
Bibliography
Index