Essential manifold

In geometry, an essential manifold is a special type of closed manifold. The notion was first introduced explicitly by Mikhail Gromov.^[1]

Definition

A closed manifold M is called essential if its fundamental class [M] defines a nonzero element in the homology of its fundamental group π, or more precisely in the homology of the corresponding Eilenberg–MacLane space K(π, 1), via the natural homomorphism

${\displaystyle H_{n}(M)\to H_{n}(K(\pi ,1)),}$ 

where n is the dimension of M. Here the fundamental class is taken in homology with integer coefficients if the manifold is orientable, and in coefficients modulo 2, otherwise.

Examples

• All closed surfaces (i.e. 2-dimensional manifolds) are essential with the exception of the 2-sphere S².
• Real projective space RPⁿ is essential since the inclusion

  ${\displaystyle \mathbb {RP} ^{n}\to \mathbb {RP} ^{\infty }}$ 

is injective in homology, where

${\displaystyle \mathbb {RP} ^{\infty }=K(\mathbb {Z} _{2},1)}$ 

is the Eilenberg–MacLane space of the finite cyclic group of order 2.

• All compact aspherical manifolds are essential (since being aspherical means the manifold itself is already a K(π, 1))
  • In particular all compact hyperbolic manifolds are essential.
• All lens spaces are essential.

Properties

• The connected sum of essential manifolds is essential.
• Any manifold which admits a map of nonzero degree to an essential manifold is itself essential.

References

1. Gromov, M. (1983). "Filling Riemannian manifolds". J. Diff. Geom. 18: 1–147. CiteSeerX 10.1.1.400.9154.

See also

• Gromov's systolic inequality for essential manifolds
• Systolic geometry