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Physics
Condensed Matter and Materials Physics
Condensed Matter Physics
1. Introduction to Condensed Matter Physics
2. Crystal Structure and Symmetry
3. Lattice Dynamics and Phonons
4. Electronic Properties of Solids
5. Semiconductors
6. Magnetism in Solids
7. Superconductivity
8. Dielectric and Optical Properties
9. Soft Condensed Matter
10. Defects and Disorder
11. Advanced Topics in Condensed Matter Physics
Magnetism in Solids
Macroscopic Magnetic Properties
Magnetic Fields and Induction
Magnetization
Magnetic Susceptibility
Diamagnetic Response
Paramagnetic Response
Magnetic Permeability
Hysteresis Loops
Atomic Origins of Magnetism
Orbital Magnetic Moment
Classical and Quantum Pictures
Orbital Angular Momentum
Electron Spin
Intrinsic Magnetic Moment
Spin Angular Momentum
Total Magnetic Moment
Spin-Orbit Coupling
Landé g-factor
Hund's Rules
Maximum Multiplicity
Energy Level Filling
Types of Magnetic Order
Diamagnetism
Lenz's Law
Landau Diamagnetism
Orbital Diamagnetism
Paramagnetism
Curie's Law
Temperature Dependence
Curie Constant
Pauli Paramagnetism
Conduction Electron Contribution
Van Vleck Paramagnetism
Ferromagnetism
Spontaneous Magnetization
Exchange Interaction
Direct Exchange
Indirect Exchange
Weiss Mean Field Theory
Molecular Field
Curie Temperature
Magnetic Domains
Domain Formation
Domain Walls
Magnetization Process
Hysteresis
Coercivity
Remanence
Energy Loss
Antiferromagnetism
Antiparallel Spin Alignment
Néel Temperature
Sublattice Magnetization
Superexchange Interaction
Ferrimagnetism
Unequal Antiparallel Moments
Net Magnetization
Compensation Temperature
Microscopic Models
Heisenberg Model
Exchange Coupling
Spin Hamiltonians
Ising Model
One-Dimensional Case
Two-Dimensional Case
Phase Transitions
Hubbard Model
On-Site Interactions
Magnetic Phases
Magnetic Excitations
Spin Waves
Magnon Dispersion
Spin Wave Theory
Magnons
Quantized Spin Waves
Bose-Einstein Statistics
Experimental Techniques
Magnetometry
SQUID Measurements
VSM Measurements
Magnetic Resonance
Nuclear Magnetic Resonance
Chemical Shifts
Relaxation Times
Electron Spin Resonance
g-factor Determination
Hyperfine Interactions
Neutron Scattering
Magnetic Structure Determination
Spin Wave Spectroscopy
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5. Semiconductors
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7. Superconductivity