arXiv:2009.13489 Abstract | arXiv Analytics

arXiv:2009.13489 [math.GR]Abstract References Reviews Resources

Homological Filling Functions with Coefficients

Published 2020-09-28Version 1

How hard is it to fill a loop in a Cayley graph with an unoriented surface? Following a comment of Gromov in "Asymptotic invariants of infinite groups", we define homological filling functions of groups with coefficients in a group $R$. Our main theorem is that the coefficients make a difference. That is, for every $n \geq 1$ and every pair of coefficient groups $A, B \in \{\mathbb{Z},\mathbb{Q}\} \cup \{\mathbb{Z}/p\mathbb{Z} : p\text{ prime}\}$, there is a group whose filling functions for $n$-cycles with coefficients in $A$ and $B$ have different asymptotic behavior.

Comments: 13 pages, 1 figure

Categories: math.GR, math.GT

Subjects: 20F65, 57M07

Keywords: asymptotic invariants, cayley graph, main theorem, asymptotic behavior, define homological filling functions

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Homological Filling Functions with Coefficients

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Homological Filling Functions with Coefficients

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arXiv:2009.13489 [math.GR]Abstract References Reviews Resources