A lower bound in the problem of realization of cycles

Abstract

We consider the classical Steenrod problem on realization of integral homology classes by continuous images of smooth oriented manifolds. Let k(n) be the smallest positive integer such that any integral n-dimensional homology class becomes realizable in the sense of Steenrod after multiplication by k(n). The best known upper bound for k(n) was obtained independently by G. Brumfiel and V. Buchstaber in 1969. All known lower bounds for k(n) were very far from this upper bound. The main result of this paper is a new lower bound for k(n) which is asymptotically equivalent to the Brumfiel-Buchstaber upper bound (in the logarithmic scale). For n<24 we prove that our lower bound is exact. Also we obtain analogous results for the case of realization of integral homology classes by continuous images of smooth stably complex manifolds.