What question did this study set out to answer?

March 27, 2026Open Access

Backfiring bosonisation

Key Points

The aim is to investigate the differences between summing over spin structures and gauging (– 1) F in fermionic quantum field theories.
Analyzed gravitational anomalies in fermionic quantum field theory in d=1+1 dimensions.
Conducted explicit calculations in conformal field theory (CFT).
Examined results from a symmetry topological field theory (TFT) perspective.
Identified that gauging (– 1) F is only valid if the gravitational anomaly vanishes mod 8.
Demonstrated that if the anomaly vanishes mod 16, both operations yield a bosonic theory.
Utilized heterotic string models and analyzed the self-triality of 8 Majorana-Weyl fermions.

Abstract

A bstract For a fermionic quantum field theory in d = 1 + 1 dimensions, there is a subtle difference between summing over spin structures and gauging (– 1) F . If the gravitational anomaly vanishes mod 16, then both operations are equivalent and yield a bosonic theory. But if the gravitational anomaly only vanishes mod 8, then only gauging (– 1) F is allowed, and the result is a fermionic theory. Our goal is to understand in detail how this happens, despite the fact (– 1) F is defined in terms of shifting the spin structure, which would naïvely suggest that both operations are equivalent. We do this from three perspectives: an abstract view in terms of anomalies, explicit CFT calculations, and a Symmetry TFT perspective. To conclude, we illustrate our results using the heterotic string and the famous self-triality of 8 Majorana-Weyl fermions.

Mark Helpful

Bookmark

Relay

View Full Paper