John Meakin scite author profile

The relationship between covering spaces of graphs and subgroups of the free group leads to a rapid proof of the Nielsen-Schreier subgroup theorem. We show here that a similar relationship holds between immersions of graphs and closed inverse submonoids of free inverse monoids. We prove using these methods, that a closed inverse submonoid of a free inverse monoid is finitely generated if and only if it has finite index if and only if it is a rational subset of the free inverse monoid in the sense of formal language theory. We solve the word problem for the free inverse category over a graph Γ. We show that immersions over Γ may be classified via conjugacy classes of loop monoids of the free inverse category over Γ. In the case that Γ is a bouquet of X circles, we prove that the category of (connected) immersions over Γ is equivalent to the category of (transitive) representations of the free inverse monoid FIM(X). Such representations are coded by closed inverse submonoids of FIM(X). These monoids will be constructed in a natural way from groups acting freely on trees and they admit an idempotent pure retract onto a free inverse monoid. Applications to the classification of finitely generated subgroups of free groups via finite inverse monoids are developed.

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On one-relator inverse monoids and one-relator groups

Ivanov

Margolis

Meakin

2001

Journal of Pure and Applied Algebra

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It is known that the word problem for one-relator groups and for one-relator monoids of the form Mon A w = 1 is decidable. However, the question of decidability of the word problem for general one-relation monoids of the form M = Mon A u = v where u and v are arbitrary (positive) words in A remains open. The present paper is concerned with one-relator inverse monoids with a presentation of the form MWe show that a positive solution to the word problem for such monoids for all reduced words w would imply a positive solution to the word problem for all one-relation monoids. We prove a conjecture of Margolis, Meakin and Stephen by showing that every inverse monoid of the form M = Inv A w = 1 , where w is cyclically reduced, must be E-unitary. As a consequence the word problem for such an inverse monoid is reduced to the membership problem for the submonoid of the corresponding one-relator group G = Gp A w = 1 generated by the prefixes of the cyclically reduced word w. This enables us to solve the word problem for inverse monoids of this type in certain cases.

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E-unitary inverse monoids and the Cayley graph of a group presentation

Margolis

Meakin

1989

Journal of Pure and Applied Algebra

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PSPACE-complete problems for subgroups of free groups and inverse finite automata

Birget

Margolis

Meakin

et al. 2000

Theoretical Computer Science

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John Meakin

Subgroups of free idempotent generated semigroups need not be free

Free Inverse Monoids and Graph Immersions

On one-relator inverse monoids and one-relator groups

E-unitary inverse monoids and the Cayley graph of a group presentation

PSPACE-complete problems for subgroups of free groups and inverse finite automata

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