Module Information

Module Identifier
PH32410
Module Title
Concepts in Condensed Matter Physics
Academic Year
2016/2017
Co-ordinator
Semester
Semester 1
Pre-Requisite
PH14310
External Examiners
  • Professor Pete Vukusic (Professor - Exeter University)
 
Other Staff

Course Delivery

Delivery Type Delivery length / details
Lecture 22 x 1 Hour Lectures
 

Assessment

Assessment Type Assessment length / details Proportion
Semester Exam 2 Hours   Examination  70%
Semester Assessment Two problem sheets  30%
Supplementary Exam 2 Hours   Examination  100%

Learning Outcomes

On successful completion of this module students should be able to:

Explain and apply the concept of reciprocal space in the context of diffraction, electronic structure and lattice dynamics.

Distinguish material classes such as crystals, polymers, liquids, and glasses according to their structure and describe common crystal structures.

Demonstrate an understanding of electronic structure and the basic mechanisms of electrical conductivity.

Describe the interaction of solids with magnetic fields and distinguish dia-, para- and ferromagnetism.

Analyse the magnetic properties of solids in terms of collective magnetic phenomena.

Interpret the thermal properties of crystal lattices using the Einstein and Debye models and predict their dispersion relations and heat capacities.

Brief description

This course provides the physics behind the atomic, electronic and magnetic structure of materials, their lattice dynamics and mechanical and thermal properties. Starting from descriptions of crystal structures, concepts such as reciprocal space, energy bands, collective magnetism and phonons are introduced.

Content

Crystal structures:
- Important structure types
- Lattice planes and Miller indices
- Bragg diffraction theory
- Reciprocal lattice
- Brillouin zones

Electronic structure and semiconductors:
- Electron theory
- Metals, insulators and semiconductors
- Fermi level
- Valence and conduction bands
- Direct and indirect band gaps
- Intrinsic and extrinsic conductivity
- Doping
- Shallow and deep centres and structures
- Effective mass
- Diffusion of carriers

Lattice dynamics, mechanical and thermal properties:
- Interatomic potentials and mechanical properties
- Elasticity and thermal expansion
- Lattice vibrations, phonons
- Dispersion relations
- Heat capacity
- Debye and Einstein models

Magnetic states of matter:
- Diamagnetism
- Paramagnetism
- Magnetic ordering
- Ferromagnetic domains
- Other collective phenomena

Notes

This module is at CQFW Level 6