Plus construction
From Wikipedia, the free encyclopedia
In mathematics, the plus construction is a method for simplifying the fundamental group of a space without changing its homology and cohomology groups. It was introduced by Daniel Quillen. Given a perfect normal subgroup of the fundamental group of a connected CW complex X, attach two-cells along loops in X whose images in the fundamental group generate the subgroup. This operation generally changes the homology of the space, but these changes can be reversed by the addition of three-cells. If the aforementioned subgroup is the entire fundamental group, this second step is unnecessary.
The most common application of the plus construction is in algebraic K-theory. If R is a unital ring, we denote by GLn(R) the group of invertible n-by-n matrices with elements in R. GLn(R) embeds in GLn + 1(R) by attaching a 1 along the diagonal and 0s elsewhere. The direct limit of these groups via these maps is denoted GL(R) and its classifying space is denoted BGL(R). The plus construction may then be applied to the perfect normal subgroup E(R) of GL(R) = π1(BGL(R)), generated by matrices which only differ from the identity matrix in one off-diagonal entry. For i > 0, the nth homotopy group of the resulting space, BGL(R) + is the nth K-group of R, Kn(R).
[edit] External links
- [1] Daniel Quillen, The Spectrum of an Equivariant Cohomology Ring: I, Annals of Mathematics, 2nd Ser., Vol. 94, No. 3 (Nov., 1971), pp. 549-572.
- [2] Daniel Quillen, The Spectrum of an Equivariant Cohomology Ring: II, Annals of Mathematics, 2nd Ser., Vol. 94, No. 3 (Nov., 1971), pp. 573-602.
- [3] Daniel Quillen, On the cohomology and K-theory of the general linear groups over a finite field, Annals of Mathematics, 2nd Ser., Vol. 96, No. 3 (Nov., 1972), pp. 552-586.