This article includes a list of references, related reading, or external links, but its sources remain unclear because it lacks inline citations. (November 2023) |
In mathematics, Schreier's lemma is a theorem in group theory used in the Schreier–Sims algorithm and also for finding a presentation of a subgroup.
Statement
editSuppose is a subgroup of , which is finitely generated with generating set , that is, .
Let be a right transversal of in . In other words, is (the image of) a section of the quotient map , where denotes the set of right cosets of in .
The definition is made given that , is the chosen representative in the transversal of the coset , that is,
Then is generated by the set
Hence, in particular, Schreier's lemma implies that every subgroup of finite index of a finitely generated group is again finitely generated.
Example
editThe group Z3 = Z/3Z is cyclic. Via Cayley's theorem, Z3 is a subgroup of the symmetric group S3. Now,
where is the identity permutation. Note S3 = { s1=(1 2), s2 = (1 2 3) } .
Z3 has just two cosets, Z3 and S3 \ Z3, so we select the transversal { t1 = e, t2=(1 2) }, and we have
Finally,
Thus, by Schreier's subgroup lemma, { e, (1 2 3) } generates Z3, but having the identity in the generating set is redundant, so it can be removed to obtain another generating set for Z3, { (1 2 3) } (as expected).
References
edit- Seress, A. Permutation Group Algorithms. Cambridge University Press, 2002.