Pontryagin product

In mathematics, the Pontryagin product, introduced by Lev Pontryagin (1939), is a product on the homology of a topological space induced by a product on the topological space. Special cases include the Pontryagin product on the homology of an abelian group, the Pontryagin product on an H-space, and the Pontryagin product on a loop space.

Cross product

In order to define the Pontryagin product we first need a map which sends the direct product of the m-th and n-th homology group to the (m+n)-th homology group of a space. We therefore define the cross product, starting on the level of singular chains. Given two topological spaces X and Y and two singular simplices ${\displaystyle f:\Delta ^{m}\to X}$  and ${\displaystyle g:\Delta ^{n}\to Y}$  we can define the product map ${\displaystyle f\times g:\Delta ^{m}\times \Delta ^{n}\to X\times Y}$ , the only difficulty is showing that this defines a singular (m+n)-simplex in ${\displaystyle X\times Y}$ . To do this one can subdivide ${\displaystyle \Delta ^{m}\times \Delta ^{n}}$  into (m+n)-simplices. It is then easy to show that this map induces a map on homology of the form

${\displaystyle H_{m}(X;R)\otimes H_{n}(Y;R)\to H_{m+n}(X\times Y;R)}$ 

by proving that if ${\displaystyle f}$  and ${\displaystyle g}$  are cycles then so is ${\displaystyle f\times g}$  and if either ${\displaystyle f}$  or ${\displaystyle g}$  is a boundary then so is the product.

Definition

Given an H-space ${\displaystyle X}$  with multiplication ${\displaystyle \mu :X\times X\to X}$  we define the Pontryagin product on homology by the following composition of maps

${\displaystyle H_{*}(X;R)\otimes H_{*}(X;R){\xrightarrow[{}]{\times }}H_{*}(X\times X;R){\xrightarrow[{}]{\mu _{*}}}H_{*}(X;R)}$ 

where the first map is the cross product defined above and the second map is given by the multiplication ${\displaystyle X\times X\to X}$  of the H-space followed by application of the homology functor to obtain a homomorphism on the level of homology. Then ${\displaystyle H_{*}(X;R)=\bigoplus _{n=0}^{\infty }H_{n}(X;R)}$ .

References

• Brown, Kenneth S. (1982). Cohomology of groups. Graduate Texts in Mathematics. Vol. 87. Berlin, New York: Springer-Verlag. ISBN 978-0-387-90688-1. MR 0672956.
• Pontryagin, Lev (1939). "Homologies in compact Lie groups". Recueil Mathématique (Matematicheskii Sbornik). New Series. 6 (48): 389–422. MR 0001563.
• Hatcher, Hatcher (2001). Algebraic topology. Cambridge: Cambridge University Press. ISBN 978-0-521-79160-1.