Surface embeddings in R2×R

Abstract

This is an investigation into a classification of embeddings of a surface in Euclidean 3-space. Specifically, we consider R3 as having the product structure R2 × R and let π:R2 × R R2 be the natural projection map onto the Euclidean plane. Let : Sg R2 × R be a smooth embedding of a closed oriented genus g surface such that the set of critical points for the map π is a smooth (possibly multi-component) 1-manifold, C ⊂ Sg. We say C is the crease set of and two embeddings are in the same isotopy class if there exists an isotopy between them that has C being an invariant set. The case where π |C restricts to an immersion is readily accessible, since the turning number function of a smooth curve in R2 supplies us with a natural map of components of C into Z. The Gauss-Bonnet Theorem beautifully governs the behavior of π (C), as it implies (Sg) = 2 Σγ ∈ C t(π (γ)), where t is the turning number function. Focusing on when Sg S2, we give a necessary and sufficient condition for when a disjoint collection of curves C ⊂ S2 can be realized as the crease set of an embedding : S2 R2 × R. From there, we give the classification of all isotopy classes of embeddings when C ⊂ S2 and |C|=3 -- a simple yet enlightening case. As a teaser of future work, we give an application to knot projections and discuss directions for further investigation.