The Principal 3-Blocks of Four- and Five-Dimensional Projective Special Linear Groups in Non-defining Characteristic

• Published in: Journal of algebra Vol. 226; no. 2; pp. 788 - 806
• Main Authors: Koshitani, Shigeo, Miyachi, Hyoue
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 15.04.2000
• ISSN: 0021-8693; 1090-266X
• DOI: 10.1006/jabr.1999.8167

In representation theory of finite groups, there is a well-known and important conjecture due to M. Broué. He has conjectured that, for any prime p, if a finite group G has an abelian Sylow p-subgroup P, then the principal p-blocks of G and the normalizer NG(P) of P in G are derived equivalent. Let q be a power of a prime such that q≡2 or 5 (mod9). In this paper we show that Broué's conjecture is true for p=3 and for G=PSL4(q) and G=PSL5(q). In these cases, G has elementary abelian Sylow 3-subgroups of order 9. What we prove here is the following. In the case G=PSL4(q) all the principal 3-blocks of G are Morita (even Puig) equivalent independently of infinitely many q. In the case G=PSL5(q) all the principal 3-blocks of G are Morita (even Puig) equivalent to the principal 3-block of NG(P) independently of infinitely many q.