Registry

Module Specifications

Archived Version 2016 - 2017

Module Title	Solid State Physics
Module Code	PS402
School	School of Physical Sciences
Online Module Resources
Module Co-ordinator	Prof. Colette McDonagh	Office Number	N145
NFQ level	8	Credit Rating	5
Pre-requisite	None
Co-requisite	None
Compatibles	None
Incompatibles	None

Description

The purpose of this module is to provide students with an overview of the principal topics in solid state physics. They will also gain experience in relating the topics in the course to recent published research. The course is mainly knowledge-based but the research paper assignment will provide library/database skills as oral presentation skills. Other learning activities include solving numerical problems related to the topics covered.

Learning Outcomes

1. Outline and discuss the main topics in solid state physics
2. Identify concepts and/or physical principles which are common across one or more topics
3. Relate the physical principles to topics covered in other modules
4. Apply physical principles and relevant equations in solving numerical problems.
5. Source research papers on a particular topic and summarise the work presented
6. Demonstrate oral communication skills

*Type*	*Hours*	*Description*
Workload	Full-time hours per semester
Lecture	30	3 lectures per week
Tutorial	6	tutorial every second week
Assignment Completion	10	sourcing and summarising a research paper on a solid state physics topic
Independent Study	150	studying lecture material, solving numerical problems and doing background reading
Total Workload: 196

All module information is indicative and subject to change. For further information,students are advised to refer to the University's Marks and Standards and Programme Specific Regulations at: http://www.dcu.ie/registry/examinations/index.shtml

Indicative Content and Learning Activities

Structure of materials
The Structure of Materials will introduce the concepts of space lattice, unit cells, crystal systems; Miller Indices and the reciprocal lattice. The determination of crystal structure by X-ray and Neutron diffraction.

Waves in solids
Introduce the concept of a wave propagating in a lattice, apply this concept to x-ray diffraction and lattice vibrations. Phonon heat capacity. Phonon thermal conductivity.

Band theory
Introduction to band theory in solids

Electrical properties
Temperature and frequency dependence of the electrical conductivity. Matthiessen's Rule. Magnitoresistance and the Hall effect. The Kondo Effect.

Thermal properties
Phonons and lattice vibrations. Temperature dependence of the thermal conductivity. Thermoelectric effects.

Optical properties
Optical and dielectrical properties of solids

Learning activities
Students are expected to attend lectures and tutorials and to prepare for both by appropriate study. This will include using books and online moodle and other resources. Students will perform literature searches to identify a research paper on a chosen topic which is related to the course and will summarise this paper and prepare and deliver a powerpoint presentation.

Assessment Breakdown
Continuous Assessment	20%	Examination Weight	80%

Type	Description	% of total	Assessment Date
Course Work Breakdown

Reassessment Requirement
Resit arrangements are explained by the following categories; 1 = A resit is available for all components of the module 2 = No resit is available for 100% continuous assessment module 3 = No resit is available for the continuous assessment component
Unavailable

Indicative Reading List

M. Ali Omar: 0, Introductory Solid State Physics,
A. M. Fox: 0, Optical Properties of Solids, Oxford University Press,
J. Singleton: 0, Band Theory and Electronic Properties of Solids, Oxford University Press,
M. T. Dove: 0, Structure and Dynamics, Oxford University Press,
H. M. Rosenberg: 0, The Solid State,
J.R. Hook and H.E. Hall: 0, Introductory Solid State Physics,
C. Kittel: 0, Introduction to Solid State Physics,

Other Resources

None

Programme or List of Programmes

AP	BSc in Applied Physics

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