Nuclear Magnetic Resonance
Syllabus
- Classical Description of NMR
- Bloch Equations
- Relaxation Times
- The Rotating Frame
- Inside the NMR spectrometer
- Tuning the NMR Probe
- Inside the Transmitter and Receiver
- Calibration and selection of experimental parameters
- NMR Pulse Programming
- Acquiring and Processing NMR Data
- One-dimensional NMR experiments
- Measuring T1 and T2
- The Fourier Transform
- Phase Corrections
- Digital Filtering
- Quantum Description of NMR - Part I.
- Spin Operators
- Quantum Dynamics
- Interaction Frame Representation
- RF Pulses and NMR Transitions
- Information Content of NMR Interactions
- Chemical Shift Interaction
- J-Coupling Interaction
- Dipolar Interaction
- Quadrupolar Interaction
- Quantum Description of NMR - Part II.
- The Density Operator
- Quantum Description of Multi-Pulse NMR experiments
- Coherence Transfer Pathways and Phase Cycling
- RF Pulses and NMR Transitions
- Two-dimensional NMR experiments