Sphere theorem (3-manifolds)

This article is about embeddings of 2-spheres. For the sphere theorem in Riemannian geometry, see Sphere theorem.

In mathematics, in the topology of 3-manifolds, the sphere theorem of Christos Papakyriakopoulos (1957) gives conditions for elements of the second homotopy group of a 3-manifold to be represented by embedded spheres.

One example is the following:

Let ${\displaystyle M}$ be an orientable 3-manifold such that ${\displaystyle \pi _{2}(M)}$ is not the trivial group. Then there exists a non-zero element of ${\displaystyle \pi _{2}(M)}$ having a representative that is an embedding ${\displaystyle S^{2}\to M}$.

The proof of this version of the theorem can be based on transversality methods, see Jean-Loïc Batude (1971).

Another more general version (also called the projective plane theorem, and due to David B. A. Epstein) is:

Let ${\displaystyle M}$ be any 3-manifold and ${\displaystyle N}$ a ${\displaystyle \pi _{1}(M)}$-invariant subgroup of ${\displaystyle \pi _{2}(M)}$. If ${\displaystyle f\colon S^{2}\to M}$ is a general position map such that ${\displaystyle [f]\notin N}$ and ${\displaystyle U}$ is any neighborhood of the singular set ${\displaystyle \Sigma (f)}$, then there is a map ${\displaystyle g\colon S^{2}\to M}$ satisfying

1. ${\displaystyle [g]\notin N}$,
2. ${\displaystyle g(S^{2})\subset f(S^{2})\cup U}$,
3. ${\displaystyle g\colon S^{2}\to g(S^{2})}$ is a covering map, and
4. ${\displaystyle g(S^{2})}$ is a 2-sided submanifold (2-sphere or projective plane) of ${\displaystyle M}$.

quoted in (Hempel 1976, p. 54).

References

• Batude, Jean-Loïc (1971). "Singularité générique des applications différentiables de la 2-sphère dans une 3-variété différentiable" (PDF). Annales de l'Institut Fourier. 21 (3): 151–172. doi:10.5802/aif.383. MR 0331407.

• Epstein, David B. A. (1961). "Projective planes in 3-manifolds". Proceedings of the London Mathematical Society. 3rd ser. 11 (1): 469–484. doi:10.1112/plms/s3-11.1.469.

• Hempel, John (1976). 3-manifolds. Annals of Mathematics Studies. Vol. 86. Princeton, NJ: Princeton University Press. MR 0415619.

• Papakyriakopoulos, Christos (1957). "On Dehn's lemma and asphericity of knots". Annals of Mathematics. 66 (1): 1–26. doi:10.2307/1970113. JSTOR 1970113. PMC 528404.

• Whitehead, J. H. C. (1958). "On 2-spheres in 3-manifolds". Bulletin of the American Mathematical Society. 64 (4): 161–166. doi:10.1090/S0002-9904-1958-10193-7.