On exotic consistent anomalies in (1+1)$d$: A ghost story
We revisit ’t Hooft anomalies in (1+1) d d non-spin quantum field theory, starting from the consistency and locality conditions, and find that consistent U(1) and gravitational anomalies cannot always be canceled by properly quantized (2+1) d d classical Chern-Simons actions. On the one hand, we pro...
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Veröffentlicht in: | SciPost physics 2021-05, Vol.10 (5), p.119, Article 119 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | We revisit ’t Hooft anomalies in (1+1)
d
d
non-spin quantum field theory, starting from the consistency and
locality conditions, and find that consistent U(1) and gravitational
anomalies cannot always be canceled by properly quantized
(2+1)
d
d
classical Chern-Simons actions. On the one hand, we prove that certain
exotic anomalies can only be realized by non-reflection-positive or
non-compact theories; on the other hand, without insisting on
reflection-positivity, the exotic anomalies present a caveat to the
inflow paradigm. For the mixed U(1) gravitational anomaly, we propose an
inflow mechanism involving a mixed U(1)
\times
×
SO(2)
classical Chern-Simons action with a boundary condition that matches the
SO(2) gauge field with the (1+1)
d
d
spin connection. Furthermore, we show that this mixed anomaly gives rise
to an isotopy anomaly of U(1) topological defect lines. The isotopy
anomaly can be canceled by an extrinsic curvature improvement term, but
at the cost of creating a periodicity anomaly. We survey the holomorphic
bc
b
c
ghost system which realizes all the exotic consistent anomalies, and end
with comments on a subtlety regarding the anomalies of finite subgroups
of U(1). |
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ISSN: | 2542-4653 2542-4653 |
DOI: | 10.21468/SciPostPhys.10.5.119 |