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arXiv:2403.17393v2 Announce Type: replace
Abstract: We revisit anomalies of $(4,0)$ and $(3,1)$ maximally supersymmetric tensor theories in $d=6$. A $(4,0)$ on-shell tensor multiplet descends to that of the $d=5$ maximal supergravity upon a dimensional reduction, hypothesized to offer a strong-coupled UV completion of the latter in the same sense of $(2,0)$ theories as the UV completion of $d=5$ $\mathcal{N}=2$ pure Yang-Mills. The gravitational anomalies, found to be nonvanishing, had been computed, although its relevance in the absence of the $d=6$ metric is not obvious. We perform a comprehensive anomaly computation for $(4,0)$ and $(3,1)$ tensor supermultiplets, respectively, for $Sp(4)$ and $Sp(3)\times Sp(1)$ $R$-symmetry anomalies and the mixed $R$-gravitational anomaly thereof, and find that anomalies involving $R$-symmetries cancel out identically. We close with questions on how to address the anomaly in this class of theories with no general covariance.
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