Exceptional character
In mathematical finite group theory, an exceptional character of a group is a character related in a certain way to a character of a subgroup. They were introduced by (Suzuki 1955), based on ideas due to Brauer in (Brauer Nesbitt).
Definition
Suppose that H is a subgroup of a finite group G, and C1, ..., Cr are some conjugacy classes of H, and φ1, ..., φs are some irreducible characters of H. Suppose also that they satisfy the following conditions:
- s ≥ 2
- φi = φj outside the classes C1, ..., Cr
- φi vanishes on any element of H that is conjugate in G but not in H to an element of one of the classes C1, ..., Cr
- If elements of two classes are conjugate in G then they are conjugate in H
- The centralizer in G of any element of one of the classes C1,...,Cr is contained in H
Then G has s irreducible characters s1,...,ss, called exceptional characters, such that the induced characters φi* are given by
- φi* = εsi + a(s1 + ... + ss) + Δ
where ε is 1 or −1, a is an integer with a ≥ 0, a + ε ≥ 0, and Δ is a character of G not containing any character si.
Construction
The conditions on H and C1,...,Cr imply that induction is an isometry from generalized characters of H with support on C1,...,Cr to generalized characters of G. In particular if i≠j then (φi − φj)* has norm 2, so is the difference of two characters of G, which are the exceptional characters corresponding to φi and φj.
See also
References
- Brauer, R.; Nesbitt, C. (1941), "On the modular characters of groups", Annals of Mathematics, Second Series 42 (2): 556–590, doi:10.2307/1968918, ISSN 0003-486X
- Isaacs, I. Martin (1994), Character Theory of Finite Groups, New York: Dover Publications, ISBN 978-0-486-68014-9
- Suzuki, Michio (1955), "On finite groups with cyclic Sylow subgroups for all odd primes", American Journal of Mathematics 77 (4): 657–691, doi:10.2307/2372591, ISSN 0002-9327
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