Extended field theories and index theory

Lead Research Organisation: Heriot-Watt University
Department Name: S of Mathematical and Computer Sciences

Abstract

An anomaly is the breaking of a classical symmetry under quantization. Following a proposal by D. Freed, a quantum field theory with anomaly can be described by a field theory relative to an extended field theory in one space-time dimension higher. All information about the anomaly is contained in this extended field theory.
The goal of this project is to study anomalies in condensed matter systems and string theory using extended field theories. This point of view allows the use of elaborate mathematical methods from (higher) category theory, gerbe theory and algebraic topology in this context. By using these methods we hope to produce new insights into the physics of the studied systems.

Publications

10 25 50
publication icon
Müller L (2019) 't Hooft Anomalies of Discrete Gauge Theories and Non-abelian Group Cohomology in Communications in Mathematical Physics

publication icon
Müller L (2018) A GNS construction of three-dimensional abelian Dijkgraaf-Witten theories in Reviews in Mathematical Physics

publication icon
Müller L (2020) Equivariant higher Hochschild homology and topological field theories in Homology, Homotopy and Applications

publication icon
Müller L (2018) Extended Quantum Field Theory, Index Theory, and the Parity Anomaly in Communications in Mathematical Physics

publication icon
Bunk S (2019) Geometry and 2-Hilbert space for nonassociative magnetic translations in Letters in Mathematical Physics

publication icon
Müller L (2019) Parallel transport of higher flat gerbes as an extended homotopy quantum field theory in Journal of Homotopy and Related Structures

Studentship Projects

Project Reference Relationship Related To Start End Student Name
ST/N504099/1 01/10/2015 30/09/2020
1820602 Studentship ST/N504099/1 01/10/2016 31/03/2020 Lukas Muller