Table of Contents

Lecture 1: Operator and Superoperator Algebra; Lecture 2: Spin; Lecture 3: The Quantum Description of an Isolated Spin-1/2; Lecture 4: Irreducible Spherical Tensors; Lecture 5: Perturbation Methods; Lecture 6: The Spin Hamiltonian; Lecture 7: The Radiofrequency Hamiltonian and the Rotating Frame; Lecture 8: The Dynamics of an Isolated Spin-1/2; Lecutre 9: The Density Operator; Lecture 10: The Dynamics of a Single Spin-1/2 Ensemble; Lecture 11: The Dynamics of an Ensemble of Coupled Spin-1/2 Pairs; Lecture 12: A Relaxation Theory of Nuclear Spin States; Workshop 1: Spin States and Operators; Workshop 2: Spherical Tensors and Spin Hamiltonians; Workshop 3: The Dynamics of Single Spin-1/2 Systems; The Dynamics of an Ensemble of Spin-1/2 Pairs and Spin Relaxation