- Lecturer: Pieter Bomans
General Prerequisites:
Quantum Field Theory (MT), General Relativity I
(MT). General Relativity II and Advanced Quantum Field Theory will be
helpful but not essential.
(MT). General Relativity II and Advanced Quantum Field Theory will be
helpful but not essential.
Course Term: Trinity
Course Lecture Information: 16 lectures
Course Weight: 1
Course Overview:
16 lectures
Areas: PT, Astro.
This course builds on both the first courses in quantum field theory and general relativity. The second course in GR and a course on differential geometry will be helpful, but are not essential. It will focus on
classical aspects of fields in curved space-time, global structure and black hole thermodynamics and then on quantum fields on curved backgrounds.
Areas: PT, Astro.
This course builds on both the first courses in quantum field theory and general relativity. The second course in GR and a course on differential geometry will be helpful, but are not essential. It will focus on
classical aspects of fields in curved space-time, global structure and black hole thermodynamics and then on quantum fields on curved backgrounds.
Learning Outcomes:
Students will be able to formulate classical and quantum field theories in curved space-time including an understanding of global features.