December 30, 2024
Built upon the previous work on the 4d anomalies and 5d cobordism invariants (namely, 5d invertible field theory [iTFT] or symmetry-protected topological state [SPTs]) of the Standard Model [SM] gauge theory with compatible (SU(3)$\times$SU(2)$\times$U(1))/$\mathbb{Z}_q$ gauge group for $q=1,2,3,6$, we further enumerate lower-dimensional iTFT / SPTs in 4d, 3d, 2d, and 1d. While the 4d SPTs are interesting gapped phases attachable to the SM, those integer classes of SPTs (either the torsion or the free cobordism class) are not universal and are difficult to detect. However, fractional SPTs are more universal and can be detected by a topological response similar to the Hall conductance under an appropriate symmetry twist background field. We find a nontrivial symmetry-extension from a magnetic 1-symmetry U(1)$_{[1]}^m$ by an electric 1-symmetry $\mathbb{Z}_{6/q,[1]}^e$ introducing the $k \in \mathbb{Z}_{6/q}$ fractionalization class. While we also introduce the background fields for Baryon minus Lepton number $({\bf B}-{\bf L})$ like 0-symmetries of U(1)$_{{\bf Q} - N_c {\bf L}}$, U(1)$_X$, and $\mathbb{Z}_{4,X}$, that introduces two more data $\alpha \in 1,3$ and $\beta \in 1,5$ for the SMs. We present their Hall conductance response data (denoted as $\sigma, \sigma'$, and $\sigma''$ respectively), between 0-symmetry and 1-symmetry background fields, and show their fractional dependence on the SM data $(q,\alpha,\beta, k)$.
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Standard lore uses local anomalies to check the kinematic consistency of gauge theories coupled to chiral fermions, e.g. Standard Models (SM). Based on a systematic cobordism classification, we examine constraints from invertible quantum anomalies (including all perturbative local and nonperturbative global anomalies) for gauge theories. We also clarify the different uses of these anomalies: including (1) anomaly cancellations of dynamical gauge fields, (2) 't Hooft anomaly m...
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