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Brauer homomorphism

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The Brauer homomorphism was first used by R. Brauer [a1], [a2], and developed further by H. Nagao [a4] to establish a connection between the -blocks of a finite group and of the -local subgroups (cf. Block). Subsequently, it has been used in a variety of other contexts within modular representation theory (cf. also Finite group, representation of a).

Let be a field of characteristic , and let act by conjugation on the group algebra with fixed points . The primitive idempotents in correspond to the blocks of , so that and as a direct sum of indecomposable two-sided ideals.

If are subgroups of and is a -module, there is a relative trace mapping , given by , where runs through a set of coset representatives of in . One writes for the image of . Applying this to the conjugation action of on , one says that is a defect group for the block (cf. also Defect group of a block) if lies in but not in for any proper subgroup . The defect groups of a block form a single conjugacy class of -subgroups of .

If is any -subgroup of , still acting on by conjugation, then there is a decomposition

as a direct sum of a subring and a two-sided ideal. This is because the left-hand side has as a basis the orbit sums. The orbits of length one span , and the sums of orbits of length greater than one are transfers from proper subgroups of . The Brauer homomorphism

is the projection onto the first factor in the above decomposition. Restricting to , one obtains the homomorphism

originally considered by Brauer.

Brauer's first main theorem states that the Brauer homomorphism establishes a one-to-one correspondence between the blocks of with defect group and the blocks of with defect group . To make sense of this, first observe that every idempotent in lies in (because the other summand is contained in the Jacobson radical ). A block idempotent has defect group if and only if and . In the commutative diagram

the top- and right-hand mappings are surjective, and hence so is the bottom mapping. It therefore induces the bijection of block idempotents described in the first main theorem.

In subsequent work, the Brauer homomorphism has been generalized to arbitrary modules:

The concept is especially useful if is a -algebra. L. Puig [a5], [a6] has developed an extensive theory of "interior G-algebras" , where is acting via inner automorphisms, and in which the Brauer homomorphism plays a central role. His work has had extensive impact both on module theory and on block theory, especially his classification of nilpotent blocks [a7]. Further discussion of the Brauer homomorphism in this context can be found in [a3] and [a8].

References

[a1] R. Brauer, "Zur Darstellungstheorie der Gruppen endlicher Ordnung" Math. Z. , 63 (1956) pp. 406–441
[a2] R. Brauer, "Zur Darstellungstheorie der Gruppen endlicher Ordnung II" Math. Z. , 72 (1959) pp. 25–46
[a3] B. Külshammer, "Lectures on block theory" , London Math. Soc. Lecture Notes Ser. , 161 , Cambridge Univ. Press (1991)
[a4] H. Nagao, "A proof of Brauer's theorem on generalized decomposition numbers" Nagoya Math. J. , 22 (1963) pp. 73–77
[a5] L. Puig, "Pointed groups and construction of characters" Math. Z. , 170 (1981) pp. 265–292
[a6] L. Puig, "Pointed groups and construction of modules" J. Algebra , 116 (1988) pp. 7–129
[a7] L. Puig, "Nilpotent groups and their source algebras" Invent. Math. , 93 (1988) pp. 77–116
[a8] J. Thévenaz, "-Algebras and modular representation theory" , Math. Monographs , Oxford Univ. Press (1995)
How to Cite This Entry:
Brauer homomorphism. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Brauer_homomorphism&oldid=46159
This article was adapted from an original article by D. Benson (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article