Integrable embeddings and foliations

Abstract

A k-submanifold L of an open n-manifold M is called weakly integrable (WI) [resp. strongly integrable (SI)] if there exists a submersion :M Rn-k such that L⊂ -1(0) [resp. L= -1(0)]. In this work we study the following problem, first stated in a particular case by Costa et al. (Invent. Math. 1988): which submanifolds L of an open manifold M are WI or SI? For general M, we explicitly solve the case k=n-1 and provide necessary and sufficient conditions for submanifolds to be WI and SI in higher codimension. As particular cases we recover the theorem of Bouma and Hector (Indagationes Math. 1983) asserting that any open orientable surface is SI in R3, and Watanabe's and Miyoshi's theorems (Topology 1993 and 1995) claiming that any link is WI in an open 3-manifold. In the case M=Rn we fully characterize WI and SI submanifolds, we provide examples of 3- and 7-manifolds which are not WI and we show that a theorem by Miyoshi (Topology 1995) which states that any link in R3 is SI does not hold in general. The right analogue to Miyoshi's theorem is also proved, implying in particular the surprising result that no knot in R3 is SI. Our results applied to the theory of foliations of Euclidean spaces give rise to some striking corollaries: using some topological invariants we classify all the submanifolds of Rn which can be realized as proper leaves of foliations; we prove that S3 can be realized as a leaf of a foliation of Rn, n≥ 7, but not in R5 or R6, which partially answers a question by Vogt (Math. Ann. 1993); we construct open 3-manifolds which cannot be leaves of a foliation of any compact 4-manifold but are proper leaves in R4. The theory of WI and SI submanifolds is a framework where many classical tools of differential and algebraic topology play a prominent role: h-principle, complete intersections and the theory of immersions and embeddings.