Abelian Lie group

In geometry, an abelian Lie group is a Lie group that is an abelian group.

A connected abelian real Lie group is isomorphic to R k × ( S 1 ) h {\displaystyle \mathbb {R} ^{k}\times (S^{1})^{h}} .[1] In particular, a connected abelian (real) compact Lie group is a torus; i.e., a Lie group isomorphic to ( S 1 ) h {\displaystyle (S^{1})^{h}} . A connected complex Lie group that is a compact group is abelian and a connected compact complex Lie group is a complex torus; i.e., a quotient of C n {\displaystyle \mathbb {\mathbb {C} } ^{n}} by a lattice.

Let A be a compact abelian Lie group with the identity component A 0 {\displaystyle A_{0}} . If A / A 0 {\displaystyle A/A_{0}} is a cyclic group, then A {\displaystyle A} is topologically cyclic; i.e., has an element that generates a dense subgroup.[2] (In particular, a torus is topologically cyclic.)

See also

  • Cartan subgroup

Citations

  1. ^ Procesi 2007, Ch. 4. § 2..
  2. ^ Knapp 2001, Ch. IV, § 6, Lemma 4.20..

Works cited

  • Knapp, Anthony W. (2001). Representation theory of semisimple groups. An overview based on examples. Princeton Landmarks in Mathematics. Princeton University Press. ISBN 0-691-09089-0.
  • Procesi, Claudio (2007). Lie Groups: an approach through invariants and representation. Springer. ISBN 978-0387260402.


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