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What is the character of Pi(G), the tensor product of all inequivalent irreducible representations of G?

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    $\begingroup$ Dear @john mckay, the question in the title appears to differ from the question in the body of the post. $\endgroup$ Mar 8, 2014 at 13:38
  • $\begingroup$ The ax+b group of a finite field ought to work (it has trivial centre). Did you have other examples in mind? $\endgroup$
    – Yemon Choi
    Mar 9, 2014 at 4:10
  • $\begingroup$ @RicardoAndrade True, but the question in the title is equivalent to asking "in which finite groups is there a non-central $g$ such that $\pi(g)\neq 0$" $\endgroup$
    – Yemon Choi
    Mar 9, 2014 at 4:13

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I'm refering to the question in the title. Elements such that $\chi(g)\neq 0$ for all $\chi\in \operatorname{Irr}G$ are called nonvanishing elements in the literature. They were studied by Isaacs, Navarro and Wolf (Group elements were no irreducible character vanishes, J. Algebra 222 (1999), 413-423, MR1733678, Doi) and others (search for papers that cite the paper just mentioned). Isaacs, Navarro and Wolf prove (among other things) that in a nilpotent group, all nonvanishing elements are central. On the other hand, Miyamoto (J. Algebra 364 (2012), 88-89, MR2927049, doi) showed that any nontrivial solvable group has nonvanishing elements different from $1$. Thus at least every solvable groups with trivial center is a group as in the question title. A paper of Dolfi et. al. (J. Algebra 323 (2010), 540-545, MR2564856, doi) contains a number of nonsolvable examples.

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