Difference between revisions of "Fundamental domain"
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− | + | ''of a discrete group $ \Gamma $ | |
+ | of transformations of a topological space $ X $'' | ||
− | + | A subset $ D \subset X $ | |
+ | containing elements from all the orbits (cf. [[Orbit|Orbit]]) of $ \Gamma $, | ||
+ | with exactly one element from orbits in general position. There are various versions of the exact definition of a fundamental domain. Sometimes a fundamental domain is any subset belonging to a given $ \sigma $- | ||
+ | algebra (for example, the Borel $ \sigma $- | ||
+ | algebra) and containing exactly one representative from each orbit. However, if $ X $ | ||
+ | is a topological manifold, then a fundamental domain is usually a subset $ D \subset X $ | ||
+ | that is the closure of an open subset and is such that the subsets $ \gamma D $, | ||
+ | $ \gamma \in \Gamma $, | ||
+ | have pairwise no common interior points and form a locally finite covering of $ X $. | ||
+ | For example, as a fundamental domain of the group of parallel translations of the plane $ \mathbf R ^ {2} $ | ||
+ | by integer vectors one can take the square | ||
+ | $$ | ||
+ | \{ {( x, y) \in \mathbf R ^ {2} } : { | ||
+ | 0 \leq x \leq 1,\ | ||
+ | 0 \leq y \leq 1 } \} | ||
+ | . | ||
+ | $$ | ||
+ | The choice of a fundamental domain is, as a rule, non-unique. | ||
====Comments==== | ====Comments==== | ||
− | The chambers of the [[Weyl group|Weyl group]] | + | The chambers of the [[Weyl group|Weyl group]] $ W $ |
+ | are examples of fundamental domains of $ W $ | ||
+ | in its reflection representation. |
Latest revision as of 19:40, 5 June 2020
of a discrete group $ \Gamma $
of transformations of a topological space $ X $
A subset $ D \subset X $ containing elements from all the orbits (cf. Orbit) of $ \Gamma $, with exactly one element from orbits in general position. There are various versions of the exact definition of a fundamental domain. Sometimes a fundamental domain is any subset belonging to a given $ \sigma $- algebra (for example, the Borel $ \sigma $- algebra) and containing exactly one representative from each orbit. However, if $ X $ is a topological manifold, then a fundamental domain is usually a subset $ D \subset X $ that is the closure of an open subset and is such that the subsets $ \gamma D $, $ \gamma \in \Gamma $, have pairwise no common interior points and form a locally finite covering of $ X $. For example, as a fundamental domain of the group of parallel translations of the plane $ \mathbf R ^ {2} $ by integer vectors one can take the square
$$ \{ {( x, y) \in \mathbf R ^ {2} } : { 0 \leq x \leq 1,\ 0 \leq y \leq 1 } \} . $$
The choice of a fundamental domain is, as a rule, non-unique.
Comments
The chambers of the Weyl group $ W $ are examples of fundamental domains of $ W $ in its reflection representation.
Fundamental domain. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fundamental_domain&oldid=47023