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Homotopy types of $\mathrm{Spin}^c(n)$-gauge groups over $S^4$

Published 2021-07-13Version 1

The gauge group of a principal $G$-bundle $P$ over a space $X$ is the group of $G$-equivariant homeomorphisms of $P$ that cover the identity on $X$. We consider the gauge groups of bundles over $S^4$ with $\mathrm{Spin}^c(n)$, the complex spin group, as structure group and show how the study of their homotopy types reduces to that of $\mathrm{Spin}(n)$-gauge groups over $S^4$. We then advance on what is known by providing a partial classification for $\mathrm{Spin}(7)$- and $\mathrm{Spin}(8)$-gauge groups over $S^4$.

Comments: 18 pages, submitted to Topology and Its Applications

Categories: math.AT

Subjects: 55P15, 55Q05

Keywords: gauge group, complex spin group, homotopy types reduces, equivariant homeomorphisms, structure group

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arXiv:2107.06000 [math.AT]Abstract References Reviews Resources

Homotopy types of $\mathrm{Spin}^c(n)$-gauge groups over $S^4$

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Homotopy types of $\mathrm{Spin}^c(n)$-gauge groups over $S^4$

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arXiv:2107.06000 [math.AT]Abstract References Reviews Resources