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Full time | University of York | 1 year | 16-SEP-24

Study mode

Full time

Duration

1 year

Start date

16-SEP-24

Key information
DATA SOURCE : IDP Connect

Qualification type

MSc - Master of Science

Subject areas

Energy Economics / Management / Conservation Nuclear Physics

Course type

Taught

Course Summary

Research into fusion is entering an exciting new era, with several large facilities aiming to achieve the crucial milestone of net energy gain.

To create sustained fusion reactions, fusion fuel must be heated to 100 million degrees. The fuel is rapidly converted to plasma, which is extremely difficult to confine and control. New international facilities using high-energy lasers and superconducting magnets are crucial steps on the way to reliable fusion energy, but there are still many challenges to overcome.

This MSc will prepare you to address these challenges. You will be introduced to the skills in computational and experimental plasma physics and conduct cutting-edge research under the guidance of physicists at the York Plasma Institute.

You'll have unrivalled opportunities to interact with world-class international fusion scientists, making the MSc in Fusion Energy an excellent way to explore your interest in fusion and prepare for a career in this field.

Assessment and feedback

You will be assessed with a mixture of closed- and open-book exams, essays, and evaluation of your laboratory work.

The grade for your research project is based on your project notebook and final report. You'll also sit a viva on your final report: an oral exam which is excellent preparation for a research degree.

Careers and skills

We provide bespoke careers sessions throughout the year to help you maximise your full potential in whatever career you choose.

Many of our students are offered PhD positions following the MSc, in both fusion energy and other subject areas. They go on to doctoral studies at York, Oxford, Imperial, Strathclyde, Durham and Liverpool, among others. Other students go straight into industry, both within fusion, and in a wide array of areas outside of fusion.

Career opportunities

  • Research scientist
  • Software developer
  • Engineer
  • Transport modeller
  • Civil Service
  • Further education lecturer

Modules

The course will provide an overview of the key plasma physics issues associated with magnetic fusion research. It will enable students to make an informed decision on an appropriate research degree project, while at the same time providing the essential foundations necessary to pursue a research degree in the field. It will provide the necessary background for students to appreciate seminars in this research field. With magnetically confined fusion, a magnetic field confines the plasma at much lower density, but for much longer times. We will focus on tokamak physics, while other toroidal confinement devices such as stellarators, will be introduced. Plasma waves, additional heating, particle transport, instabilities, turbulence and plasma edge physics will be treated. The motivation and physics of the next generation tokamak ITER currently under construction will be presented.

Tuition fees

UK fees
Course fees for UK students

For this course (per year)

£12,480

International fees
Course fees for EU and international students

For this course (per year)

£29,400

Entry requirements

Undergraduate degree: 2:2 or equivalent in Physics or a related discipline.