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Characterizing families of graph manifolds via suitable classes of simple fold maps into the plane and embeddability of the Reeb spaces in some 3-dimensional manifolds

Published 19 Jul 2021 in math.GT and math.GN | (2107.08629v6)

Abstract: Graph manifolds form important classes of $3$-dimensional closed and orientable manifolds. For example, {\it Seifert} manifolds are graph manifolds where hyperbolic manifolds are not. In applying singularity theory of differentiable maps to understanding global topologies of manifolds, graph manifolds have been shown to be characterized as ones admitting so-called simple fold maps into the plane of explicit classes by Saeki and the author. The present paper presents several related new results. Fold maps are higher dimensional variants of Morse functions and simple ones form simple classes, generalizing the class of general Morse functions. Such maps into the plane on $3$-dimensional closed and orientable manifolds induce quotient maps to so-called simple polyhedra with no vertices, which are $2$-dimensional. This is also closely related to the theory of {\it shadows} of $3$-dimensional manifolds. We also discuss invariants for graph manifolds via embeddability of these polyhedra in some $3$-dimensional manifolds.

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