hyperoctahedral_group
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hyperoctahedral_group [2020/02/14 07:16] amang [Basic properties] |
hyperoctahedral_group [2021/11/23 11:56] (current) |
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| For every $N\in \N$ the hyperoctahedral group $H_N$ for dimension $N$ can be defined as the subgroup of the [[wp>general linear group]] $\mathrm{GL}(N,\C)$ given by all orthogonal $N\times N$-matrices with integer entries, i.e., the set | For every $N\in \N$ the hyperoctahedral group $H_N$ for dimension $N$ can be defined as the subgroup of the [[wp>general linear group]] $\mathrm{GL}(N,\C)$ given by all orthogonal $N\times N$-matrices with integer entries, i.e., the set | ||
| $$H_N\colon\hspace{-0.6em}=\{ u\in \C^{N\times N}\,\vert\, u=\overline{u},\, uu^t=u^tu=I, \,\forall_{i,j=1}^N: u_{i,j}\in\Z\},$$ | $$H_N\colon\hspace{-0.6em}=\{ u\in \C^{N\times N}\,\vert\, u=\overline{u},\, uu^t=u^tu=I, \,\forall_{i,j=1}^N: u_{i,j}\in\Z\},$$ | ||
| - | where, if $u=(u_{i,j})_{i,j=1}^N$, then $\overline u=(u^\ast_{i,j})_{i,j=1}^N$ is the complex conjugate of $u$ and $u^t=(u_{j,i})_{i,j=1}^N$ the transpose and where $I_N$ is the identity $N\!\times \!N$-matrix. | + | where, if $u=(u_{i,j})_{i,j=1}^N$, then $\overline u=(\overline{u}_{i,j})_{i,j=1}^N$ is the complex conjugate of $u$ and $u^t=(u_{j,i})_{i,j=1}^N$ the transpose and where $I_N$ is the identity $N\!\times \!N$-matrix. |
hyperoctahedral_group.1581664562.txt.gz · Last modified: 2021/11/23 11:56 (external edit)
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