School of Physics
Trinity College Dublin
E-mail: jcoey@tcd.ie
Phone: + 353 1 896 1470
Chapter 1: Introduction
1. A Brief History of Magnetism
2. Magnetism and Hysteresis
3. Magnet Applications
4. Magnetism, Physics and Technology
Chapter 2: Magnetostatics
1. The Magnetic Dipole Moment
2. Magnetic Fields
3. Maxwell’s Equations
4. Magnetic Field Calculations
5. Magnetostatic Energy and Forces
Chapter 3 Magnetism of the Electron
1. Orbital and Spin Moments
2. Magnetic Field Effects
3. Theory of Electronic Magnetism
4. Magnetism of Electrons in Solids
Chapter 4: Magnetism of the Localized Electrons on the Atom
1. The hydrogenic atom and angular momentum
2. The many-electron atom
3. Spin-orbit coupling
4. The Zeeman interaction
5. Ions in solids
6. Paramagnetism
Chapter 5 Ferromagnetism
1. Mean field theory
2. Exchange interactions
3. Band magnetism
4. Beyond mean-field theory
5. Anisotropy
6. Ferromagnetic phenomena
Chapter 6 Antiferromagnetism and Other Magnetic Order
6.1 Mean Field Theory of Antiferromagnetism
6.2 Ferrimagnets
6.3 Frustration
6.4 Amorphous Magnets
6.5 Spin Glasses
6.6 Magnetic Model Compounds
Chapter 7 Micromagnetism, domains and hysteresis
7.1 Micromagnetic energy
7.2 Domain theory
7.5 Reversal, pinning and nucleation
Chapter 8 Nanoscale Magnetism
8.1 Characteristic length scales
8.2 Thin films
8.3 Thin film heterostructures
8.4 Wires and needles
8.5 Superparamagnetism
8.6 Bulk nanostructures
Chapter 9 Magnetic Resonance
9.1 Electron paramagnetic resonance
9.2 Ferromagnetic resonance
9.3 Nuclear magnetic resonance
9.4 Other resonance methods
Chapter 10 Experimental Methods
10.1Materials preparation
10.2 Magnetic fields
10.3 Atomic-scale magnetism
10.4 Domain-scale measurements
10.5 Bulk magnetization measurement
10.6 Excitations
10.7 Numerical methods
Chapter 11 Magnetic Materials
11.1 3d metals and alloys
11.2 Intermetallic compounds
11.3 Interstitial compounds
11.4 Ferromagnetic oxides
11.5 Antiferromagnetic and ferrimagnetic oxides
11.6 Amorphous materials
11.7 Rare earths
11.8 Miscellaneous materials
Chapter 12: Applications of Soft Magnets
1. Losses
2. Materials
3. Static Applications
4. Low-frequency Applications
5. High-frequency Applications
Chapter 13: Applications of Hard Magnets
1. Magnetic Circuits
2. Materials
3. Static Applications
4. Dynamic Applications with Mechanical Recoil
5. Dynamic Applications with Active Recoil
6. Microsystems
Chapter 14: Spin Electronics and Magnetic Recording
1. Spin currents
2. Sensors
3. Memory
4. Logic
5. Spin transistors
6. Magnetic recording
Chapter 15: Special Topics
1. Magnetic Liquids
2. Magnetoelectrochemistry
3. Magnetic Levitation
4. Magnetism in Biology and Medecine
5. Planetary and Cosmic Magnetism
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