Toda bracket

From Wikipedia, the free encyclopedia

In mathematics, the Toda bracket is an operation on homotopy classes of maps, in particular on homotopy groups of spheres, named after Hiroshi Toda who defined them and used them to compute homotopy groups of spheres in (Toda 1962).

[edit] Definition

See (Kochman 1990) or (Toda 1962) for more information. Suppose that

$W\rightarrow^f X\rightarrow^g Y\rightarrow^h Z$

is a sequence of maps between space, such that gf and hg are both nullhomotopic. Then we get a non-unique map from the cone CW of W to Y from a homotopy from gf to a trivial map, which when composed with h gives a map from CW to Z. Similarly we get a non-unique map from the cone CX of X to Y from a homotopy from hg to a trivial map, which when composed with f gives another map from CW to Z. By joining together these two cones on W and the maps from them to Z, we get a map 〈f,g,h〉 in the group [SW, Z] of homotopy classes of maps from the suspension SW to Z, called the Toda bracket of f, g, and h. It is not uniquely defined up to homotopy, because there was some choice in choosing the maps from the cones. Changing these maps changes the Toda bracket by adding elements of h[SW,Y] and [SX,Z]f.

There are also higher Toda brackets of several elements, defined when suitable lower Toda brackets vanish. This parallels the theory of Massey products in cohomology.

[edit] The Toda bracket stable for homotopy groups of spheres

The direct sum

$\pi_{\ast}^S=\bigoplus_{k\ge 0}\pi_k^S$

of the stable homotopy groups of spheres is a supercommutative graded ring, where multiplication (called composition product) is given by composition of representing maps, and any element of non-zero degree is nilpotent.(Nishida 1973).

If f and g and h are elements of π_∗^S with f⋅g = 0 and g⋅h = 0, there is a Toda bracket 〈f,g,h〉 of these elements. The Toda bracket is not quite an element of a stable homotopy group, because it is only defined up to addition of composition products of certain other elements. Hiroshi Toda used the composition product and Toda brackets to label many of the elements of homotopy groups. Cohen (1968) showed that every element of the stable homotopy groups of spheres can be expressed using composition products and higher Toda brackets in terms of certain well known elements, called Hopf elements.

[edit] References

Cohen, Joel M. (1968), “The decomposition of stable homotopy.”, Annals of Mathematics (2) 87: 305–320, MR 0231377, doi:10.2307/1970586, <http://links.jstor.org/sici?sici=0003-486X%28196803%292%3A87%3A2%3C305%3ATDOSH%3E2.0.CO%3B2-K> .
Kochman, Stanley O. (1990), “Toda brackets”, Stable homotopy groups of spheres. A computer-assisted approach, vol. 1423, Lecture Notes in Mathematics, Berlin: Springer-Verlag, pp. 12-34, MR 1052407, ISBN 978-3-540-52468-7, DOI 10.1007/BFb0083797 .
Nishida, Goro (1973), “The nilpotency of elements of the stable homotopy groups of spheres”, Journal of the Mathematical Society of Japan 25: 707–732, MR 0341485, ISSN 0025-5645 .
Toda, Hirosi (1962), Composition methods in homotopy groups of spheres, vol. 49, Annals of Mathematics Studies, Princeton University Press, MR 0143217, ISBN 978-0-691-09586-8 .

Categories: Homotopy theory

Toda bracket

From Wikipedia, the free encyclopedia

[edit] Definition

[edit] The Toda bracket stable for homotopy groups of spheres

[edit] References

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