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Exponents of orientable maps

Published online by Cambridge University Press:  01 July 1997

R Nedela
Affiliation:
Department of Mathematics, Faculty of Science, Matej Bel University, 975 49 Banská Bystrica, Slovakia. Email: [email protected]
M škoviera
Affiliation:
Department of Computer Science, Faculty of Mathematics and Physics, Comenius University, 842 15 Bratislava, Slovakia. Email: [email protected]
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Abstract

We generalize the idea of reflexibility of a map on a surface by introducing certain integers as its ”exponents“. An exponent is any integer $e$ with the property that changing the cyclic permutation of edges around each vertex induced by the map to its $e$-th power gives rise to an isomorphic map. The exponents reduced modulo the least common multiple of the vertex valencies form an Abelian group, the exponent group $\mbox{Ex}\,(M)$ of the map $M$. Along with the automorphism group, the group in fact provides an additional measure of symmetry of ~$M$.

The paper is devoted to developing the fundamentals of the theory of exponent groups of maps. Motivation comes from the problem of classification of regular maps with a given underlying graph. To this end, we prove that the number of non-isomorphic regular maps (if any) with a given underlying graph and the same map automorphism group is $|{\Bbb Z}_n^*:\mbox{Ex}\,(M)|$, $n$ being the valency of $M$. We calculate the exponent groups for some interesting families of regular maps including complete maps. Special attention is paid to the problem of how the antipodality of a map is reflected by its exponent group. In the final section we discuss several open problems.

1991 Mathematics Subject Classification: 05C10, 05C25, 20F32.

Type
Research Article
Copyright
London Mathematical Society 1997

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