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4
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Is one of the hyperplane partitions of a irreducible root system always generate the whole W...
Let $\Delta$ be a irreducible root system and $\Delta^+$ be its positive roots.
We say a subset $\Delta^{\prime}\subset \Delta^+$ can generate the Weyl group if reflections of roots in $\Delta^{\prim …
4
votes
1
answer
197
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Can we have a nontrivial division of a irreducible root system as the union of two closed su...
The question is related to this MO question. Let $(\Phi, E)$ be a irreducible crystallographic root system where $\Phi$ is the set of all roots and $E$ is the $\mathbb{R}$-span of $\Phi$. As in the st …
3
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Can we have a nontrivial division of a irreducible root system as the union of two closed su...
$\def\abs#1{\lvert#1\rvert}\DeclareMathOperator\Span{Span}$I think I get a proof inspired by the comment of @LSpice.
First we can prove that $\Phi_1\setminus \Phi_2$ is orthogonal to $\Phi_2\setminus …
1
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1
answer
238
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Can we have a nontrivial division of a irreducible root system as $\Phi=\Phi_{[\lambda]}\cup...
Let $(\mathfrak{g},\mathfrak{h},\Phi)$ be a root system of a complex simple Lie algebra, where $\Phi$ is the set of all roots. For each $\alpha\in \Phi$, let $\alpha^{\vee}=2\alpha/(\alpha,\alpha)$ be …
1
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Can we have a nontrivial division of a irreducible root system as $\Phi=\Phi_{[\lambda]}\cup...
I think the answer is yes because $(\Phi_{[\lambda]})^{\vee}$ and $(\Phi_{[\mu]})^{\vee}$ are closed sub-root systems of the dual root system $\Phi^{\vee}$. Closed means if $\alpha$ and $\beta$ are ro …