NFYK14014U Introduction to String Theory
MSc Programme in Physics
This course gives a basic introduction to string theory. The first part of the course is an introduction to classical string theory and quantized bosonic string theory. The second part of the course is an introduction to conformal invariance, superstring theory and strings in background fields, as well as to related topics.
The course will begin with an introduction to the action description of classical relativistic strings, including discussion of symmetries, constraints and action principle. The course then turns to quantized bosonic string theory, with closed and open strings, lightcone quantization, covariant quantization, anomalies versus symmetries in quantized theories, the critical space-time dimension and definition of D-branes. Furthermore, the course will cover conformal symmetry of string theory and it is implemented for the covariant quantization of the bosonic string. Finally, it will cover the more advanced topics of superstrings and strings in background fields.
At the end of the course, the student is expected to:
- Be able to write down and use the Nambu-Goto and Polyakov actions for classical relativistic strings.
- Be able to quantize the open and closed bosonic string and compute the spectrum.
- Be able to explain the connection between the critical space-time dimension of string theory and anomalies, both for the lightcone as well as for the covariant quantization.
- Be able to explain how a D-brane is defined from open string theory.
- Be able to explain the connection between conformal symmetry in two dimensions, covariant quantization with ghost fields, and the critical space-time dimension.
- Be able to show that the world-sheet action for superstrings is supersymmetric.
- Be able to understand the main elements of strings propagating in non-trivial backgrounds.
- Be able to understand the essentials of generalizing the bosonic string to the superstring.
- Be able to explain the essentials of why there are five consistent superstring theories.
- Be able to explain the essentials of T-duality for type IIA and type IIB string theory.
This course builds on the of knowledge quantum mechanics, special and general relativity. The course will provide the students with a competent background for further studies within this research field, i.e. a M.Sc. project in theoretical high energy physics. It will also provide those that plan to continue into experimental high energy physics or cosmology the necessary background to understand the physics of string theory. This course will provide the students with mathematical tools that have application in a range of fields within and beyond physics.
to be announced on Absalon
- 7,5 ECTS
- Type of assessment
- Oral examination, 30 minutesOral exam, 30 minutes, no preparation time
- Without aids
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
- Exam period
Several internal examiners.
same as regular exam
Criteria for exam assesment
see learning outcome