Group cohomology of Klein four-group

This article gives specific information, namely, group cohomology, about a particular group, namely: Klein four-group.
View group cohomology of particular groups | View other specific information about Klein four-group

Classifying space and corresponding chain complex

The classifying space of the Klein four-group is the product space ${\displaystyle \mathbb{R}{\mathbb{P}}^{\mathrm{\infty }}\times \mathbb{R}{\mathbb{P}}^{\mathrm{\infty }}}$, where ${\displaystyle \mathbb{R}{\mathbb{P}}^{\mathrm{\infty }}}$ is infinite-dimensional real projective space.

A chain complex that can be used to compute the homology of this space is given as follows:

• The ${\displaystyle n^{th}}$ chain group is a sum of ${\displaystyle n+1}$ copies of ${\displaystyle \mathbb{Z}}$, indexed by ordered pairs ${\displaystyle (i,j)}$ where ${\displaystyle i+j=n}$. In other words, the ${\displaystyle n^{th}}$ chain group is:

${\displaystyle {\mathbb{Z}}_{(0,n)}\oplus {\mathbb{Z}}_{(1,n-1)}\oplus \dots {\mathbb{Z}}_{(n,0)}}$

• The boundary map is (up to some sign issues that need to be fixed!) given by adding up the following maps:

• • The map ${\displaystyle {\mathbb{Z}}_{(i,j)}\to {\mathbb{Z}}_{(i,j-1)}}$ is multiplication by zero if ${\displaystyle j}$ is odd and is multiplication by two if ${\displaystyle j}$ is even.
  • The map ${\displaystyle {\mathbb{Z}}_{(i,j)}\to {\mathbb{Z}}_{(i-1,j)}}$ is multiplication by zero if ${\displaystyle i}$ is odd and multiplication by two if ${\displaystyle i}$ is even.

Homology groups

Over the integers

The homology groups with coefficients in the ring of integers ${\displaystyle \mathbb{Z}}$ are given as follows:

${\displaystyle H_p(\mathbb{Z}/2\mathbb{Z}\oplus \mathbb{Z}/2\mathbb{Z};\mathbb{Z})=\{\begin{array}{cc}(\mathbb{Z}/2\mathbb{Z}{)}^{(p+1)/2},& p=1,3,5,\dots \\ (\mathbb{Z}/2\mathbb{Z}{)}^{p/2},& p=2,4,6,\dots \\ \mathbb{Z},& p=0\\ \end{array}}$

These homology groups can be obtained from the knowledge of the homology groups of cyclic group:Z2 (see group cohomology of cyclic group:Z2) using the Kunneth formula. They can also be computed explicitly using the chain complex description above.

Over an abelian group ${\displaystyle M}$

The homology groups with coefficients in an abelian group ${\displaystyle M}$ (which may be equipped with additional structure as a module over a ring ${\displaystyle R}$) are given as follows:

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Cohomology groups and cohomology ring

Groups over the integers

The cohomology groups with coefficients in the integers are given as below:

${\displaystyle H^p(\mathbb{Z}/2\mathbb{Z}\oplus \mathbb{Z}/2\mathbb{Z};\mathbb{Z})=}$

Second cohomology groups and extensions

Schur multiplier

The Schur multiplier, defined as the second cohomology group for trivial group action ${\displaystyle H^2(G,{\mathbb{C}}^{\ast })}$ and also as the second homology group ${\displaystyle H_2(G,\mathbb{Z})}$, is isomorphic to cyclic group:Z2.

See also the projective representation theory of Klein four-group.

Second cohomology groups for trivial group action