Paper detail

A linear condition for non-very generic discriminantal arrangements

The discriminantal arrangement is the space of configurations of $n$ hyperplanes in generic position in a $k$ dimensional space (see \cite{MS}). Differently from the case $k=1$ in which it corresponds to the well known braid arrangement, the discriminantal arrangement in the case $k>1$ has a combinatorics which depends from the choice of the original $n$ hyperplanes. It is known that this combinatorics is constant in an open Zariski set $\mathcal{Z}$, but to assess wether or not $n$ fixed hyperplanes in generic position belongs to $\mathcal{Z}$ proved to be a nontrivial problem. Even to simply provide examples of configurations not in $\mathcal{Z}$ is still a difficult task. In this paper, moving from a recent result in \cite{SSc}, we define a $\textit{weak linear independency}$ condition among sets of vectors which, if imposed, allows to build configurations of hyperplanes not in $\mathcal{Z}$. We provide $3$ examples.