Immersed surfaces with knot group Z
Abstract
This article is concerned with locally flatly immersed surfaces in simply-connected 4-manifolds where the complement of the surface has fundamental group Z. Once the genus and number of double points are fixed, we classify such immersed surfaces in terms of the equivariant intersection form of their exterior and a secondary invariant. Applications include criteria for deciding when an immersed Z-surface in S4 is isotopic to the standard immersed surface that is obtained from an unknotted surface by adding local double points. As another application, we enumerate Z-disks in D4 with a single double point and boundary a given knot; we prove that the number of such disks may be infinite. We also prove that a knot bounds a Z-disk in D4 with c+ positive double points and c- negative double points if and only if it can be converted into an Alexander polynomial one knot via changing c+ positive crossings and c- negative crossings. In 4-manifolds other than D4 and S4, applications include measuring the extent to which immersed Z-surfaces are determined by the equivariant intersection form of their exterior. Along the way, we prove that any two Z2-concordances between the Hopf link and an Alexander polynomial one link L are homeomorphic rel. boundary.
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