磁學的自旋波理論和超導的BCS理論是典型的重整化理論之前的理論。這兩個理論都只考慮了原子論的(離散化的)相互作用而沒有考慮連續固體的能量自由度。從Kenneth G. Wilson(1982年諾貝爾獎得主)的先驅工作開始,我們知道了連續固體的一個特殊的的對稱性:長度標度變換不變性。 本書綜述了近50年來固體物理的實驗,並用唯象的方式指出磁序和普通超導的動力學出現主要受連續固體的場論粒子而不是磁子或Cooper對的控制。在磁序中相關的粒子稱作GSW玻色子,在超導里相關的粒子稱作SC玻色子。 本書適合凝聚態、材料科學和粒子物理等領域的研究者和研究生閱讀。
基本介紹
- 書名:重正化群理論:對實驗磁學的影響
- 作者:克布勒 (Kobler U.)
- 出版社:北京大學出版社
- 頁數:394頁
- 開本:16
- 品牌:北京大學出版社
- 外文名:Renormalization Group Theory:Impact on Experimental Magnetism
- 類型:科學與自然
- 出版日期:2014年10月1日
- 語種:簡體中文, 英語
- ISBN:9787301248294
基本介紹,內容簡介,作者簡介,圖書目錄,
基本介紹
內容簡介
重正化群理論是現代物理的標誌性理論之一。其方法和思想深刻地改變了現代物理學的面貌。磁學則是一門古老的學問,但在今天依然有著重要的地位。本書對於重正化群理論及其影響的講述,能夠使在物理學方方面面工作的讀者受益。毫無疑問,這是一本不容錯過的佳作。
作者簡介
(德)克布勒(U. Kobler)(德)霍澤(A.Hoser),德國於利希研究中心研究員。
圖書目錄
Introduction
History of Conventional Spin Wave Theory
2.1 Theoretical and Experimental Confusions
2.2 Problems with the Macroscopic Magnetization
Basic Issues of Renormalization Group (RG) Theory
3.1 Dynamics of Non Magnetic Solids
3.2 Dynamics of Ordered Magnets
4 Universality
4.1 Non-Magnetic Solids
4.2 Ordered Magnets
5 Microscopic Processes
6 Non-Relevant Magnons
7 Crossover Phenomena
7.1 Amplitude Crossover (AC)
7.2 Quantum State Crossover (QS)
7.3 Crossover Between Stable Fixed Points (SFP)
7.4 Symmetry Crossover (SC)
7.5 Dimensionality Crossover (DC)
8 Metastability of Universality Classes
9 Relevant and Non-Relevant Interactions
10 Temperature Dependence of the Magnon Excitation Spectra
11 Magnetic Heat Capacity
11.1 NonRelevant Magnetic Heat Capacity for T→O
11.2 Relevant Magnetic Heat Capacity for T→O
12 Experimental Verification of GSW Bosons
13 Magnets With and Without Magnon Gap (Goldstone Mode)
13.1 Isotropic Magnets with Half-Integer Spin (T2 Universality Class)
13.2 Isotropic Magnets with Integer Spin (T9/2 Universality Class)
13.3 Two-Dimensional Magnets with Half-Integer Spin (T3/2 Universality Class)
13.4 Two-Dimensional Magnets with Integer Spin
(T2 Universality Class)
13.5 One-Dimensional Magnets with Half-Integer Spin (T5/2 Universality Class)
13.6 One-Dimensional Magnets with Integer Spin (T3 Universality Class)
13.7 Field Dependence of the Classical Magnon Spectrum
14 Microscopic Details: Spin Structure, Site Disorder, Two Order Parameters
15 The Critical Magnetic Behaviour
15.1 Isotropic 3D Magnets with Half-Integer Spin (T2 Universality Class)
15.2 Anisotropic 3D Magnets with Half-Integer Spin (T3/2 Universality Class)
15.3 Isotropic 3D Magnets with Integer Spin (T9/2 Universality Class)
15.4 Anisotropic 3D Magnets with Integer Spin (T2 Universality Class)
15.5 Amorphous Ferromagnets
15.6 Two-Dimensional Magnets
15.7 One-Dimensional Magnets
16 Thermal Lattice Expansion and Magnetostriction
16.1 Spontaneous Magnetostriction
16.2 Thermal Lattice Expansion of Non-Magnetic Solids
17 The Total Energy Content
18 Superconductivity
18.1 Superconducting Heat Capacity
18.2 Superconducting Excitation Gap
18.3 Problems with Landau's Order Parameter Concept
19 Conclusions
References
Index
History of Conventional Spin Wave Theory
2.1 Theoretical and Experimental Confusions
2.2 Problems with the Macroscopic Magnetization
Basic Issues of Renormalization Group (RG) Theory
3.1 Dynamics of Non Magnetic Solids
3.2 Dynamics of Ordered Magnets
4 Universality
4.1 Non-Magnetic Solids
4.2 Ordered Magnets
5 Microscopic Processes
6 Non-Relevant Magnons
7 Crossover Phenomena
7.1 Amplitude Crossover (AC)
7.2 Quantum State Crossover (QS)
7.3 Crossover Between Stable Fixed Points (SFP)
7.4 Symmetry Crossover (SC)
7.5 Dimensionality Crossover (DC)
8 Metastability of Universality Classes
9 Relevant and Non-Relevant Interactions
10 Temperature Dependence of the Magnon Excitation Spectra
11 Magnetic Heat Capacity
11.1 NonRelevant Magnetic Heat Capacity for T→O
11.2 Relevant Magnetic Heat Capacity for T→O
12 Experimental Verification of GSW Bosons
13 Magnets With and Without Magnon Gap (Goldstone Mode)
13.1 Isotropic Magnets with Half-Integer Spin (T2 Universality Class)
13.2 Isotropic Magnets with Integer Spin (T9/2 Universality Class)
13.3 Two-Dimensional Magnets with Half-Integer Spin (T3/2 Universality Class)
13.4 Two-Dimensional Magnets with Integer Spin
(T2 Universality Class)
13.5 One-Dimensional Magnets with Half-Integer Spin (T5/2 Universality Class)
13.6 One-Dimensional Magnets with Integer Spin (T3 Universality Class)
13.7 Field Dependence of the Classical Magnon Spectrum
14 Microscopic Details: Spin Structure, Site Disorder, Two Order Parameters
15 The Critical Magnetic Behaviour
15.1 Isotropic 3D Magnets with Half-Integer Spin (T2 Universality Class)
15.2 Anisotropic 3D Magnets with Half-Integer Spin (T3/2 Universality Class)
15.3 Isotropic 3D Magnets with Integer Spin (T9/2 Universality Class)
15.4 Anisotropic 3D Magnets with Integer Spin (T2 Universality Class)
15.5 Amorphous Ferromagnets
15.6 Two-Dimensional Magnets
15.7 One-Dimensional Magnets
16 Thermal Lattice Expansion and Magnetostriction
16.1 Spontaneous Magnetostriction
16.2 Thermal Lattice Expansion of Non-Magnetic Solids
17 The Total Energy Content
18 Superconductivity
18.1 Superconducting Heat Capacity
18.2 Superconducting Excitation Gap
18.3 Problems with Landau's Order Parameter Concept
19 Conclusions
References
Index
