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Let 
be a finite group. For any prime number 
, let 
be the number of irreducible complex characters of 
with degree prime to 
(cf. also Character of a group). The simplest form of the McKay–Alperin conjectures asserts that
 |
where 
is a Sylow 
-subgroup of 
and 
is its normalizer (cf. also Sylow subgroup; 
-group; Normalizer of a subset). J. McKay [a2] first suggested this might be true when 
is a simple group. J.L. Alperin [a1] observed that it is probably true for all finite groups.
Alperin also made a more general conjecture, involving characters in 
-blocks. (See Brauer first main theorem for notation and definitions.) Let 
be a 
-block of 
with defect group 
(cf. Defect group of a block), and let 
be an irreducible character (cf. also Irreducible representation) belonging to 
. Let 
be a Sylow 
-subgroup of 
. By a theorem of R. Brauer, 
divides the degree 
. The character 
is said to have height zero if the largest power of 
dividing 
is 
. The more general Alperin conjecture asserts that the number of irreducible characters of height zero in 
is equal to the number of irreducible characters of height zero in the unique block of 
sent to 
by the Brauer correspondence.
The conjectures are still not proved (1998), but the evidence in their favour is very strong.
References
| [a1] | J.L. Alperin, "The main problem of block theory" W.R. Scott (ed.) F. Gross (ed.) , Proc. Conf. Finite Groups (Park City, Utah, 1975) , Acad. Press (1976) |
| [a2] | J. McKay, "Irreducible representations of odd degree" J. Algebra , 20 (1972) pp. 416–418 |
McKay-Alperin conjecture. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=McKay-Alperin_conjecture&oldid=13806