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Eells–Kuiper manifold

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In mathematics, an Eells–Kuiper manifold is a compactification of R n {\displaystyle \mathbb {R} ^{n}} by a sphere of dimension n / 2 {\displaystyle n/2} , where n = 2 , 4 , 8 {\displaystyle n=2,4,8} , or 16 {\displaystyle 16} . It is named after James Eells and Nicolaas Kuiper.

If n = 2 {\displaystyle n=2} , the Eells–Kuiper manifold is diffeomorphic to the real projective plane R P 2 {\displaystyle \mathbb {RP} ^{2}} . For n 4 {\displaystyle n\geq 4} it is simply-connected and has the integral cohomology structure of the complex projective plane C P 2 {\displaystyle \mathbb {CP} ^{2}} ( n = 4 {\displaystyle n=4} ), of the quaternionic projective plane H P 2 {\displaystyle \mathbb {HP} ^{2}} ( n = 8 {\displaystyle n=8} ) or of the Cayley projective plane ( n = 16 {\displaystyle n=16} ).

Properties

These manifolds are important in both Morse theory and foliation theory:

Theorem: Let M {\displaystyle M} be a connected closed manifold (not necessarily orientable) of dimension n {\displaystyle n} . Suppose M {\displaystyle M} admits a Morse function f : M R {\displaystyle f\colon M\to \mathbb {R} } of class C 3 {\displaystyle C^{3}} with exactly three singular points. Then M {\displaystyle M} is a Eells–Kuiper manifold.

Theorem: Let M n {\displaystyle M^{n}} be a compact connected manifold and F {\displaystyle F} a Morse foliation on M {\displaystyle M} . Suppose the number of centers c {\displaystyle c} of the foliation F {\displaystyle F} is more than the number of saddles s {\displaystyle s} . Then there are two possibilities:

  • c = s + 2 {\displaystyle c=s+2} , and M n {\displaystyle M^{n}} is homeomorphic to the sphere S n {\displaystyle S^{n}} ,
  • c = s + 1 {\displaystyle c=s+1} , and M n {\displaystyle M^{n}} is an Eells–Kuiper manifold, n = 2 , 4 , 8 {\displaystyle n=2,4,8} or 16 {\displaystyle 16} .

See also

References

  1. Eells, James Jr.; Kuiper, Nicolaas H. (1962), "Manifolds which are like projective planes", Publications Mathématiques de l'IHÉS (14): 5–46, MR 0145544.
  2. Camacho, César; Scárdua, Bruno (2008), "On foliations with Morse singularities", Proceedings of the American Mathematical Society, 136 (11): 4065–4073, arXiv:math/0611395, doi:10.1090/S0002-9939-08-09371-4, MR 2425748.
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