Anomalies in Superconformal Field Theories
Anomalies in Superconformal Field Theories
This thesis presents work related to anomalies in superconformal field theories (SCFTs).
Recent holographic computations proved the existence of new supersymmetry anomalies
in N = 1 SCFTs with an anomalous R-symmetry. This was also confirmed in the context
of the Wess-Zumino (WZ) consistency conditions. Motivated by these results, we provide
a comprehensive analysis of the free and massless WZ model in perturbation theory.
The WZ model is classically invariant under the superconformal group SU(2, 2|1), but
some of these symmetries are broken by quantum anomalies. There are well known bosonic
anomalies associated with R-symmetry and scale invariance, as well as fermionic anomalies
associated with the gamma trace of the supercurrent (usually known as S-supersymmetry).
We provide the first rigorous loop computation which shows that Q-supersymmetry of
conformal supergravity is anomalous at the level of the 4-point correlators, confirming
the holographic and WZ consistency conditions computations. In particular, we focus
on the Ward identities of the 4-point correlator of two supercurrents and two R-currents
<QQJ J ¯ >. The results are verified by two different regulators, namely the cut-off and
the Pauli-Villars regularization procedures. We also obtain all the standard anomalies of
the WZ model that is coupled to conformal supergravity.
Our results also show that the form of the anomalies and the part of the symmetry they break depend on the multiplet of conserved currents one uses. In particular,
the conformal multiplet in the renormalized theory is necessarily anomalous in Q- and
S-supersymmetries, while in the Ferrara-Zumino (FZ) multiplet –the minimal massive
multiplet– there exists a manifestly non anomalous combination of Q- and S- supersymmetries of the conformal multiplet. We give the counterterm that relates the two multiplets
in the correlation functions of interest.
Finally, in the context of the loop computation, we shed light on many subtle issues
on the regulators and the derivation of the Ward identities
University of Southampton
Katsianis, Georgios
ee1fe6fa-951b-498e-b562-7ed6ed8ea4c4
2021
Katsianis, Georgios
ee1fe6fa-951b-498e-b562-7ed6ed8ea4c4
Taylor, Marika
5515acab-1bed-4607-855a-9e04252aec22
Skenderis, Konstantinos
09f32871-ffb1-4f4a-83bc-df05f4d17a09
Katsianis, Georgios
(2021)
Anomalies in Superconformal Field Theories.
University of Southampton, Doctoral Thesis, 196pp.
Record type:
Thesis
(Doctoral)
Abstract
This thesis presents work related to anomalies in superconformal field theories (SCFTs).
Recent holographic computations proved the existence of new supersymmetry anomalies
in N = 1 SCFTs with an anomalous R-symmetry. This was also confirmed in the context
of the Wess-Zumino (WZ) consistency conditions. Motivated by these results, we provide
a comprehensive analysis of the free and massless WZ model in perturbation theory.
The WZ model is classically invariant under the superconformal group SU(2, 2|1), but
some of these symmetries are broken by quantum anomalies. There are well known bosonic
anomalies associated with R-symmetry and scale invariance, as well as fermionic anomalies
associated with the gamma trace of the supercurrent (usually known as S-supersymmetry).
We provide the first rigorous loop computation which shows that Q-supersymmetry of
conformal supergravity is anomalous at the level of the 4-point correlators, confirming
the holographic and WZ consistency conditions computations. In particular, we focus
on the Ward identities of the 4-point correlator of two supercurrents and two R-currents
<QQJ J ¯ >. The results are verified by two different regulators, namely the cut-off and
the Pauli-Villars regularization procedures. We also obtain all the standard anomalies of
the WZ model that is coupled to conformal supergravity.
Our results also show that the form of the anomalies and the part of the symmetry they break depend on the multiplet of conserved currents one uses. In particular,
the conformal multiplet in the renormalized theory is necessarily anomalous in Q- and
S-supersymmetries, while in the Ferrara-Zumino (FZ) multiplet –the minimal massive
multiplet– there exists a manifestly non anomalous combination of Q- and S- supersymmetries of the conformal multiplet. We give the counterterm that relates the two multiplets
in the correlation functions of interest.
Finally, in the context of the loop computation, we shed light on many subtle issues
on the regulators and the derivation of the Ward identities
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Published date: 2021
Identifiers
Local EPrints ID: 452902
URI: http://eprints.soton.ac.uk/id/eprint/452902
PURE UUID: 228f6eba-86fe-40d0-af48-3bcc8068b052
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Date deposited: 06 Jan 2022 17:48
Last modified: 17 Mar 2024 03:28
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Author:
Georgios Katsianis
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