描述
开 本: 16开纸 张: 胶版纸包 装: 平装是否套装: 否国际标准书号ISBN: 9787301249796丛书名: 中外物理学精品书系
编辑推荐
磁学既古老又年轻,与人类生产生活一直有着紧密的关系。如今,磁性材料已经遍布世界,随便拆开我们使用的任何一种设备,几乎都能发现磁性材料。对这个内容丰富、蓬勃发展的学科加以总结和展望,就是这本巨著的目的。本书的作者Coey教授是世界上屈指可数的磁学大家,同时也有着非凡的撰写能力和热情。这使得本书成为难得一遇的精彩著作。本书的另一大特点是图文并茂,其中插入了大量精美的图片,使得阅读本书更加轻松愉快。这一方向的研究人员,已及单纯对这一方向感兴趣的读者,本书是你*应购买的,不能错过的佳作。
内容简介
《磁学和磁性材料(Magnetism and Magnetic Materials)》是影印版英文专著,原书由剑桥大学出版社于2009年出版。本书包含了磁学和磁性材料方面的基本物理概念、实验方法和应用,内容丰富而系统,着重强调了从纳米尺度到天体物理尺度的实际计算方法和数值量。本书提供了丰富而实用的磁材料信息,详细介绍了多种主要的磁材料。
《磁学和磁性材料(Magnetism and Magnetic Materials)(英文影印版)》适合物理、材料等研究方向的科研工作者和研究生阅读。
《磁学和磁性材料(Magnetism and Magnetic Materials)(英文影印版)》适合物理、材料等研究方向的科研工作者和研究生阅读。
目 录
List of tables of numerical data
Preface
Acknowledgements
1 Introduction
1.1 A brief history of magnetism
1.2 Magnetism and hysteresis
1.3 Magnet applications
1.4 Magnetism, the felicitous science
2 Magnetostatics
2.1 The magnetic dipole moment
2.2 Magnetic fields
2.3 Maxwell’s equations
2.4 Magnetic field calculations
2.5 Magnetostatic energy and forces
3 Magnetism of electrons
3.1 Orbital and spin moments
3.2 Magnetic field effects
3.3 Theory of electronic magnetism
3.4 Magnetism of electrons in solids
4 Magnetism of localized electrons on the atom
4.1 The hydrogenic atom and angular momentum
4.2 The many-electron atom
4.3 Paramagnetism
4.4 Ions in solids; crystal-field interactions
5 Ferromagnetism and exchange
5.1 Mean field theory
5.2 Exchange interactions
5.3 Band magnetism
5.4 Collective excitations
5.5 Anisotropy
5.6 Ferromagnetic phenomena
6 Antiferromagnetism and other magnetic order
6.1 Molecular field theory of antiferromagnetism
6.2 Ferrimagnets
6.3 Frustration
6.4 Amorphous magnets
6.5 Spin glasses
6.6 Magnetic models
7 Micromagnetism, domains and hysteresis
7.1 Micromagnetic energy
7.2 Domain theory
7.3 Reversal, pinning and nucleation
8 Nanoscale magnetism
8.1 Characteristic length scales
8.2 Thin films
8.3 Thin-film heterostructures
8.4 Wires and needles
8.5 Small particles
8.6 Bulk nanostructures
9 Magnetic resonance
9.1 Electron paramagnetic resonance
9.2 Ferromagnetic resonance
9.3 Nuclear magnetic resonance
9.4 Other methods
10 Experimental methods
10.1 Materials growth
10.2 Magnetic fields
10.3 Atomic-scale magnetism
10.4 Domain-scale measurements
10.5 Bulk magnetization measurements
10.6 Excitations
10.7 Numerical methods
11 Magnetic materials
11.1 Introduction
11.2 Iron group metals and alloys
11.3 Rare-earth metals and intermetallic compounds
11.4 Interstitial compounds
11.5 Oxides with ferromagnetic interactions
11.6 Oxides with antiferromagnetic interactions
11.7 Miscellaneous materials
12 Applications of soft magnets
12.1 Losses
12.2 Soft magnetic materials
12.3 Static applications
12.4 Low-frequency applications
12.5 High-frequency applications
13 Applications of hard magnets
13.1 Magnetic circuits
13.2 Permanent magnet materials
13.3 Static applications
13.4 Dynamic applications with mechanical recoil
13.5 Dynamic applications with active recoil
13.6 Magnetic microsystems
14 Spin electronics and magnetic recording
14.1 Spin-polarized currents
14.2 Materials for spin electronics
14.3 Magnetic sensors
14.4 Magnetic memory
14.5 Other topics
14.6 Magnetic recording
15 Special topics
15.1 Magnetic liquids
15.2 Magnetoelectrochemistry
15.3 Magnetic levitation
15.4 Magnetism in biology and medicine
15.5 Planetary and cosmic magnetism
Appendices
Appendix A Notation
Appendix B Units and dimensions
Appendix C Vector and trigonometric relations
Appendix D Demagnetizing factors for ellipsoids of revolution
Appendix E Field, magnetization and susceptibility
Appendix F Quantum mechanical operators
Appendix G Reduced magnetization of ferromagnets
Appendix H Crystal field and anisotropy
Appendix I Magnetic point groups
Formula index
Index
Preface
Acknowledgements
1 Introduction
1.1 A brief history of magnetism
1.2 Magnetism and hysteresis
1.3 Magnet applications
1.4 Magnetism, the felicitous science
2 Magnetostatics
2.1 The magnetic dipole moment
2.2 Magnetic fields
2.3 Maxwell’s equations
2.4 Magnetic field calculations
2.5 Magnetostatic energy and forces
3 Magnetism of electrons
3.1 Orbital and spin moments
3.2 Magnetic field effects
3.3 Theory of electronic magnetism
3.4 Magnetism of electrons in solids
4 Magnetism of localized electrons on the atom
4.1 The hydrogenic atom and angular momentum
4.2 The many-electron atom
4.3 Paramagnetism
4.4 Ions in solids; crystal-field interactions
5 Ferromagnetism and exchange
5.1 Mean field theory
5.2 Exchange interactions
5.3 Band magnetism
5.4 Collective excitations
5.5 Anisotropy
5.6 Ferromagnetic phenomena
6 Antiferromagnetism and other magnetic order
6.1 Molecular field theory of antiferromagnetism
6.2 Ferrimagnets
6.3 Frustration
6.4 Amorphous magnets
6.5 Spin glasses
6.6 Magnetic models
7 Micromagnetism, domains and hysteresis
7.1 Micromagnetic energy
7.2 Domain theory
7.3 Reversal, pinning and nucleation
8 Nanoscale magnetism
8.1 Characteristic length scales
8.2 Thin films
8.3 Thin-film heterostructures
8.4 Wires and needles
8.5 Small particles
8.6 Bulk nanostructures
9 Magnetic resonance
9.1 Electron paramagnetic resonance
9.2 Ferromagnetic resonance
9.3 Nuclear magnetic resonance
9.4 Other methods
10 Experimental methods
10.1 Materials growth
10.2 Magnetic fields
10.3 Atomic-scale magnetism
10.4 Domain-scale measurements
10.5 Bulk magnetization measurements
10.6 Excitations
10.7 Numerical methods
11 Magnetic materials
11.1 Introduction
11.2 Iron group metals and alloys
11.3 Rare-earth metals and intermetallic compounds
11.4 Interstitial compounds
11.5 Oxides with ferromagnetic interactions
11.6 Oxides with antiferromagnetic interactions
11.7 Miscellaneous materials
12 Applications of soft magnets
12.1 Losses
12.2 Soft magnetic materials
12.3 Static applications
12.4 Low-frequency applications
12.5 High-frequency applications
13 Applications of hard magnets
13.1 Magnetic circuits
13.2 Permanent magnet materials
13.3 Static applications
13.4 Dynamic applications with mechanical recoil
13.5 Dynamic applications with active recoil
13.6 Magnetic microsystems
14 Spin electronics and magnetic recording
14.1 Spin-polarized currents
14.2 Materials for spin electronics
14.3 Magnetic sensors
14.4 Magnetic memory
14.5 Other topics
14.6 Magnetic recording
15 Special topics
15.1 Magnetic liquids
15.2 Magnetoelectrochemistry
15.3 Magnetic levitation
15.4 Magnetism in biology and medicine
15.5 Planetary and cosmic magnetism
Appendices
Appendix A Notation
Appendix B Units and dimensions
Appendix C Vector and trigonometric relations
Appendix D Demagnetizing factors for ellipsoids of revolution
Appendix E Field, magnetization and susceptibility
Appendix F Quantum mechanical operators
Appendix G Reduced magnetization of ferromagnets
Appendix H Crystal field and anisotropy
Appendix I Magnetic point groups
Formula index
Index
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