University of York

University of York

Master of Physics Honours in Theoretical Physics with a year in industry

The Master of Physics Honours in Theoretical Physics with a year in industry in Physics is offered by University of York.

Program Length: 5 YEARS.

Master of Physics Honours in Theoretical Physics with a year in industry offered by the University of York

Explore phenomena which experimentation can't easily explain, putting theory into practice with a year in industry.

Theoretical physics provides the tools for constructing the mathematical framework of the physical world.

On a foundation of advanced physics, you'll build your understanding of theoretical techniques. You'll use mathematical analysis and an array of computational methods to address complex problems. You'll learn key skills of analysis and research, write scientific reports to industry standards, and simulate huge physical systems using our supercomputers.

In your fourth year, you'll apply and develop your skills on a paid industrial placement. This gives you the chance to gain practical, real world experience, enhancing your degree and your CV.

Work with world-renowned physicists using sophisticated equipment to probe the nature of existence and push the boundaries of research. You will learn to utilise supercomputers like York's own Viking cluster, developing parallel code to model complex physical systems.

Course content
This course will build on your previous studies to prepare you for advanced research in industry or academia. The core and optional modules will give you a broad base of knowledge, and opportunities to focus on the specialist subjects which excite your curiosity.

As you progress you'll hone your skills, designing computational studies and solving physical and mathematical problems. You'll gain experience working with sophisticated equipment and specialist software.

In your final year you'll design and carry out an original research project. You'll work under guidance from an academic supervisor to bring new knowledge and deeper understanding to an area such as spin chains, nanoparticles or plasmas for fusion energy.

Year 1
Year 1 emphasises core material to consolidate your existing knowledge and prepare you for more advanced study. You'll study a range of key modules, and develop your theoretical and computational skills in the lab throughout the year.

Core modules
Electromagnetism, Waves and Optics (20 credits)
Introduction to Thermal and Quantum Physics (20 credits)
Mathematics I (20 credits)
Newtonian and Relativistic Mechanics (20 credits)
Mathematical Modelling with Professional Skills (20 credits)
Laboratory for Theoretical Physics (20 credits)

Year 2
In Year 2 you'll deepen your understanding of fundamental laws, processes and techniques.  You'll learn to approach problems creatively and further develop your programming and analytical skills in our dedicated computational laboratories.

Core modules
Computational and Mathematical Techniques for Theoretical Physics (20 credits)
Computational Laboratory (20 credits)
Electromagnetism and Optics (20 credits)
Mathematics II (20 credits)
Quantum Physics II (20 credits)
Thermodynamics and Solid State I (20 credits)

Year 3
Year 3 introduces some advanced concepts, building on the expertise you've developed. Optional modules give you the chance to delve deeper into your favourite topic, or discover a new area of advanced physics.

You'll complete advanced laboratory work which will include preparation for your research project in the final year.

Core modules
Advanced Computational Laboratory (20 credits)
Computational and Mathematical Techniques II (20 credits)
Quantum Physics III (20 credits)
Statistical Mechanics and Solid State II (20 credits)

Option modules
Choose 40 credits from:

Advanced Theoretical Techniques (10 credits)
Atomic Physics and Lasers  (10 credits)
Introduction to Plasma Science and Technology (10 credits)
Introduction to Quantum Computing (10 credits)
Magnetic Materials and Technology (10 credits)
Medical Physics (10 credits)
Modern Optics (10 credits)
Nanoscale (10 credits)
Particle Physics (10 credits)
Relativity (10 credits)
The Physics of Stars (10 credits)

Year 4
In your fourth year, you'll undertake a paid placement in industry. This is a chance to apply your physics knowledge, gain valuable work experience, and forge links which could prove useful to your future career.

The dedicated placement team will help you find and apply for placements. A series of industrial visits and events will assist in your search. In recent years our students have had placements at leading companies and research organisations such as:

Kromek
Dyson
MM Microwave
BAE Systems
Jaguar Land Rover
Airbus
Selex ES
Institut Laue Langevin
Food & Environment Agency
Science and Technology Facilities Council
Thales

You will be assigned an industrial supervisor, who is an employee of the company, and an academic supervisor from the department; both will support and monitor your progress through your placement year.

Placements are led by the White Rose Industrial Physics Academy, who promote unique collaborations between York and our leading industrial partners.

You are responsible for securing your chosen placement. If you don't find a placement you will transfer to the standard MPhys Theoretical Physics pathway.

Year 5
The final year consists of a number of advanced optional modules, providing you with the opportunity to specialise further. You'll apply the core knowledge you've developed over the previous years to topics aligned with our internationally-recognised research groups.

You'll undertake a major research project under the supervision of an academic member of staff with expertise in the area you choose to focus on. You'll conduct original research to reach new conclusions and, at the highest levels, contribute to our understanding of physics.

Core module
MPhys Project (60 credits)
Students widely acknowledge the MPhys project as one of the most satisfying and rewarding parts of the course. You'll undertake independent research to investigate a current problem in the field, or bring new perspectives to a familiar topic. You may need to design and code computer simulations to evaluate complex physical systems.

Some of the recent final year projects addressed by our theory students include the modelling of the complex processes occurring in plasmas for fusion energy, the behaviour of cold atoms in Bose-Einstein condensates, the properties of spin chains, and modelling hyperthermia in a nanoparticle magnetic system.

You'll be supported by a professional skills module to hone your research techniques. You'll undertake a literature survey, write a review essay, develop a project plan and give oral and poster presentations in an end-of-year conference

Option modules
Choose 60 credits from:

Advanced High Performance Computing (10 credits)
Advanced Plasma Physics (20 credits)
Advanced Quantum Mechanics (10 credits)
Biophysics (20 credits)
From Subatomic Physics to Astrophysics (20 credits)
Further Quantum Mechanics (10 credits)
High Performance Computing (10 credits)
Laser and Atom-light Interactions (10 credits)
Nanomaterials: from Graphene to Spintronics (20 credits)
Physics and Applications of Semiconductor Devices (10 credits)



Locations where you can study Master of Physics Honours in Theoretical Physics with a year in industry en University of York


Schools where you can study Master of Physics Honours in Theoretical Physics with a year in industry en University of York

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