Module Information

Module Identifier
PHM7020
Module Title
Advanced Research Topics
Academic Year
2018/2019
Co-ordinator
Semester
Semester 2
Pre-Requisite
PHM5860 or FGM5860 (or MAM9840 or MTM9840 for the F341 Degree Scheme)
Reading List
External Examiners
  • Professor Pete Vukusic (Professor - Exeter University)
 

Course Delivery

 

Assessment

Assessment Type Assessment length / details Proportion
Semester Assessment Six themed assessments (question sheets, reports, essays)  100%
Supplementary Assessment Resubmission of failed components  100%

Learning Outcomes

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

1. Display mastery of advanced topics in materials and space physics.
2. Critically evaluate the fundamental physics of the interaction of radiation and matter in a range of applications.
3. Critically evaluate the application of advanced experimental and computational methods to the analysis of complex data.
4. Interpret concepts, calculations and observations in advanced topics underpinning current research areas.
5. Present and discuss the concepts, calculations and observations in written themed tasks.

Aims

The aim of this module is to enable students to master concepts in research topics that are aligned with both the theme of their chosen degree scheme and research expertise of the department. The module covers six main topics, three being core and three optional. Students are introduced to a variety of applications and techniques and associated experimental and computational methods.

Brief description


The module will be delivered in six distinct blocks. Three will cover the core themes and will be compulsory for all students. In these, students will gain experience of core skills relevant to materials and space physics research and also industry. The remaining three sessions will be selected from optional themes that cover various aspects from materials and space physics.

Each block is self-contained and can be delivered as a distinct training unit e.g. for CPD.

Content

1. Core themes:
Radiation-matter interaction.
Instrumentation systems.
Imaging.

2. Optional themes: (these are typical, the extended list will depend on the research interests of current staff)

Space plasmas and fields.
Planetary surfaces.
Tomography.
Quantum theory and modeling.
Nano- and energy materials.
Particle beams.
Advanced optics.

  • External experts will occasionally be invited to teach an optional theme.
Each theme will be covered in intense 5-hour blocks. Each will also have a 1-hour feedback session.

Module Skills

Skills Type Skills details
Application of Number Answering questions and data analysis for assignments will require numerical skills.
Communication Each assignment will require a written report.
Improving own Learning and Performance Assignments are designed to encourage self-directed learning and improve performance, with feedback.
Information Technology Computers will be required for data analysis and image processing. Topics will be researched using the internet.
Personal Development and Career planning The student will develop an awareness of advanced techniques and their relevance to research. Discussion of the relevance of topics to industry will strengthen awareness of the link between academia and the work-place.
Problem solving Problem solving is a key skill in physics and will be tested by continuous assessment assignments associated with each block of lectures and workshops.
Research skills The assignments will require researching the topic.
Subject Specific Skills Detail will depend on the research topics studied.
Team work Group discussions at workshops.

Notes

This module is at CQFW Level 7