The Novikov conjecture is one of the most important unsolved problems in topology. It is named for Sergei Novikov who originally posed the conjecture in 1965.

The Novikov conjecture concerns the homotopy invariance of certain polynomials in the Pontryagin classes of a manifold, arising from the fundamental group. According to the Novikov conjecture, the higher signatures, which are certain numerical invariants of smooth manifolds, are homotopy invariants.

The conjecture has been proved for finitely generated abelian groups. It is not yet known whether the Novikov conjecture holds true for all groups. There are no known counterexamples to the conjecture.

Precise formulation of the conjecture

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Let   be a discrete group and   its classifying space, which is an Eilenberg–MacLane space of type  , and therefore unique up to homotopy equivalence as a CW complex. Let

 

be a continuous map from a closed oriented  -dimensional manifold   to  , and

 

Novikov considered the numerical expression, found by evaluating the cohomology class in top dimension against the fundamental class  , and known as a higher signature:

 

where   is the   Hirzebruch polynomial, or sometimes (less descriptively) as the    -polynomial. For each  , this polynomial can be expressed in the Pontryagin classes of the manifold's tangent bundle. The Novikov conjecture states that the higher signature is an invariant of the oriented homotopy type of   for every such map   and every such class  , in other words, if   is an orientation preserving homotopy equivalence, the higher signature associated to   is equal to that associated to  .

Connection with the Borel conjecture

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The Novikov conjecture is equivalent to the rational injectivity of the assembly map in L-theory. The Borel conjecture on the rigidity of aspherical manifolds is equivalent to the assembly map being an isomorphism.

References

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  • Davis, James F. (2000), "Manifold aspects of the Novikov conjecture" (PDF), in Cappell, Sylvain; Ranicki, Andrew; Rosenberg, Jonathan (eds.), Surveys on surgery theory. Vol. 1, Annals of Mathematics Studies, Princeton University Press, pp. 195–224, ISBN 978-0-691-04937-3, MR 1747536
  • John Milnor and James D. Stasheff, Characteristic Classes, Annals of Mathematics Studies 76, Princeton (1974).
  • Sergei P. Novikov, Algebraic construction and properties of Hermitian analogs of k-theory over rings with involution from the point of view of Hamiltonian formalism. Some applications to differential topology and to the theory of characteristic classes. Izv.Akad.Nauk SSSR, v. 34, 1970 I N2, pp. 253–288; II: N3, pp. 475–500. English summary in Actes Congr. Intern. Math., v. 2, 1970, pp. 39–45.
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