Nuclear Magnetic Resonance

Nuclear Magnetic Resonance (NMR | INR7002U)

Description: This course will introduce students to the principles and methods of nuclear magnetic resonance. It will apply previously learned concepts to magnetic resonance. Students should appreciate the power and versatility of this technique in a variety of applications.

- Introduction: static and dynamic aspects of magnetism, Larmor precession, relaxation to equilibrium, T1 and T2, Bloch equations.

- Pulse and continuous wave methods: time and frequency domains. Manipulation and observation of magnetisation, 90 and 180 pulses, free induction decay.

- Experimental methods of pulse and CW NMR: the spectrometer, magnet. Detection of NMR using SQUIDs.

- Theory of relaxation: transverse relaxation of stationary spins, the effect of motion. Spin lattice relaxation.

- Spin echoes: "violation" of the Second Law of Thermodynamics, recovery of lost magnetisation. Application to the measurement of T2 and diffusion.

- Analytical NMR: chemical shifts, metals, NQR.

- NMR imaging: Imaging methods. Fourier reconstruction techniques. Gradient echoes. Imaging other parameters.

This module is taught by RHUL


Juno Champion

The school holds Juno Champion status, the highest award of this IoP scheme to recognise and reward departments that can demonstrate they have taken action to address the under-representation of women in university physics and to encourage better practice for both women and men.