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A geometric version of the Andrasfai-Erdos-Sos theorem

For each odd integer $k\ge 5$, we prove that, if $M$ is a simple rank-$r$ binary matroid with no odd circuit of length less than $k$ and with $|M| > k 2^{r-k+1}$, then $M$ is isomorphic to a restriction of the rank-$r$ binary affine geometry; this bound is tight for all $r\ge k-1$. We use this to give a simpler proof of the following result of Govaerts and Storme: for each integer $n\ge 2$, if $M$ is a simple rank-$r$ binary matroid with no $PG(n-1,2)$-restriction and with $|M| > \left(1-\frac{11}{2^{n+2}}\right) 2^r$, then $M$ has critical number at most $n-1$. That result is a geometric analogue of a theorem of Andrasfai, Erdos, and Sos in extremal graph theory.