$G$-complete reducibility and semisimple modules (1011.2012v2)

Abstract: Let $G$ be a connected reductive algebraic group defined over an algebraically closed field %$k$ of characteristic $p > 0$. Our first aim in this note is to give concise and uniform proofs for two fundamental and deep results in the context of Serre's notion of $G$-complete reducibility, at the cost of less favourable bounds. Here are some special cases of these results: Suppose that the index $(H:H^\circ)$ is prime to $p$ and that $p > 2\dim V-2$ for some faithful $G$-module $V$. Then the following hold: (i) $V$ is a semisimple $H$-module if and only if $H$ is $G$-completely reducible; (ii) $H^\circ$ is reductive if and only if $H$ is $G$-completely reducible. We also discuss two new related results: (i) if $p \ge \dim V$ for some $G$-module $V$ and $H$ is a $G$-completely reducible subgroup of $G$, then $V$ is a semisimple $H$-module -- this generalizes Jantzen's semisimplicity theorem (which is the case $H = G$); (ii) if $H$ acts semisimply on $V \otimes V^*$ for some faithful $G$-module $V$, then $H$ is $G$-completely reducible.