On bijections that preserve complementarity of subspaces
Andrea Blunck, Hans Havlicek
TL;DR
The set G of all m-dimensional subspaces of a 2m-dimensional vector space V is endowed with two relations, complementarity and adjacency, and bijections from G onto G^', where G^' arises from a2m^'-dimensionalvector space V^'.
Abstract
The set $G$ of all $m$-dimensional subspaces of a $2m$-dimensional vector space $V$ is endowed with two relations, complementarity and adjacency. We consider bijections from $G$ onto $G'$, where $G'$ arises from a $2m'$-dimensional vector space $V'$. If such a bijection $φ$ and its inverse leave one of the relations from above invariant, then also the other. In case $m\geq 2$ this yields that $φ$ is induced by a semilinear bijection from $V$ or from the dual space of $V$ onto $V'$. As far as possible, we include also the infinite-dimensional case into our considerations.