PHY423 Advanced Electrodynamics (15 credits)
PHY432 Advanced Quantum Mechanics (15 credits)
PHY61008 Research Project (60 credits)
The workload for PHY61008 is divided equally between semesters.
A student will take 30 credits from this groupÂ
As there is substantial overlap between the content of MAS413 and PHY414, it is not permitted to take both these modules.
PHY417 History of Astronomy (15 credits)
PHY425 The Development of Particle Physics (15 credits)
PHY440 Optical Properties of Solids (15 credits)
PHY441 An Introduction to General Relativity (15 credits)
PHY433 Advanced Soft Matter and Biological Physics (15 credits)
MAS61014 Advanced Topics in Waves and Fluids Dynamics B (30 credits)
MAS61016 Analytical Dynamics and Classical Field Theory (30 credits)
PHY434 Directed Reading in Physics and Astrophysics (15 credits)
PHY409 Physics in an Enterprise Culture (15 credits)
PHY416 Astrobiology (15 credits)
PHY419 Advanced Particle Physics (15 credits)
PHY424 Semiconductor Physics and Technology (15 credits)
PHY443 Introduction to Cosmology (15 credits)
PHY446 Quantum Optics and Quantum Computing (15 credits)
A student must satisfy the requirements of the General Regulations for First Degrees as to progression to continue as a student for the Degree of MPhys in Theoretical Physics with a Year in Industry (PHYU41). A student who fails to satisfy these requirements may be required by the Faculty to become instead a student for the Degree of BSc in Theoretical Physics with a Year in Industry (PHYU40).
A student must secure a placement with an appropriate employer by the end of Level 2 in order to stay on the programme. Otherwise, they have the option of transferring to a degree programme without a Year in Industry at the end of Level 2.