Higher-group structure in $2n$-dimensional axion-electrodynamics
Abstract
We investigate -dimensional axion electrodynamics for the purpose of exploring a higher-group structure underlying it. This is manifested as a Green-Schwarz transformation of the background gauge fields that couple minimally to the conserved currents. The case is studied most intensively. We derive the identities of correlation functions among the global symmetry generators by using a gauge transformation that maps two correlation functions with each other. A key ingredient in this computation is given by the Green-Schwarz transformation and the 't Hooft anomalies associated with the gauge transformation. The algebraic structure of these results and its physical interpretations are discussed in detail. In particular, we find that the higher-group structure for is endowed with a multi-ary operation among the symmetry generators.
Cite
@article{arxiv.2211.13861,
title = {Higher-group structure in $2n$-dimensional axion-electrodynamics},
author = {Tatsuki Nakajima and Tadakatsu Sakai and Ryo Yokokura},
journal= {arXiv preprint arXiv:2211.13861},
year = {2023}
}
Comments
29 pages, 6 figures