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Lecture
Hyperfine Coupling: Experimental Techniques & Specific Heat
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Untitled
Electron Theory: Distribution Functions
Explores distribution functions in electron theory, comparing Maxwell-Boltzmann and Fermi-Dirac statistics for energy transitions.
Isolated Magnetic Moments: Nuclear Spins
Explores nuclear spins, hyperfine interaction, and magnetic resonance imaging techniques.
Spin Coherence: Double Quantum Coherence
Explores spin echo, quadrupolar echoes, and double quantum coherence in spin dynamics.
Spin-Spin Couplings: Basics
Provides a comprehensive overview of spin-spin couplings in nuclear magnetic resonance, including multiplet patterns and their effect on NMR spectra.
Magnetic Susceptibility: Basics and Applications
Explores magnetization, magnetic fields, spin angular momentum, and material behavior in magnetic fields, discussing susceptibility, paramagnetism, and diamagnetism.
Vibrations in Solids: Harmonic Oscillators and Phonons
Explores vibrations in solids, including harmonic oscillators, phonons, and the Einstein model of heat capacity.
Statistical Field Theory
Covers the basics of statistical field theory, focusing on Ising models and the Ginsburg-Landau theory.
