Isaacs-Navarro conjecture: Difference between revisions

The Isaacs-Navarro conjecture is a slight generalization of the McKay conjecture and is believed to hold for all finite groups. The conjecture was introduced in a 2002 paper by Isaacs and Navarro.

Statement

Suppose ${\displaystyle G}$ is a finite group and ${\displaystyle p}$ is a prime number. Denote by ${\displaystyle f(G,p,a)}$ the number of equivalence classes of irreducible representations of ${\displaystyle G}$ over the complex numbers whose degree is congruent to ${\displaystyle a}$ or ${\displaystyle -a}$ modulo ${\displaystyle p}$. Then, if ${\displaystyle a}$ is not divisible by ${\displaystyle p}$, and ${\displaystyle P}$ is a ${\displaystyle p}$-Sylow subgroup of ${\displaystyle G}$, we have:

${\displaystyle \!f(G,p,a)=f(N_{G}(P),p,a)}$

Current status

The conjecture for all finite groups is open, but it has been resolved for some types of groups.

References

• New refinements of the McKay conjecture for finite groups by I. Martin Isaacs and Gabriel Navarro, Annals of Mathematics, Volume 156, Page 333 - 344(Year 2002): ^{ArXiV copyMore info}
• The Isaacs–Navarro conjecture for symmetric groups by Paul Fong, Journal of Algebra, ISSN 00218693, Volume 260,Number 1, Page 154 - 161(February 2003): ^{Official copy (gated)More info}