Abstract
Let $\mathbb{F}_{q}^{n}$ be a vector space of dimension $n$ over the finite field $\mathbb{F}_{q}$. A $q$-analog of a Steiner system (also known as a $q$-Steiner system), denoted ${\mathcal{S}}_{q}(t,\!k,\!n)$, is a set ${\mathcal{S}}$ of $k$-dimensional subspaces of $\mathbb{F}_{q}^{n}$ such that each $t$-dimensional subspace of $\mathbb{F}_{q}^{n}$ is contained in exactly one element of ${\mathcal{S}}$. Presently, $q$-Steiner systems are known only for $t\,=\,1\!$, and in the trivial cases $t\,=\,k$ and $k\,=\,n$. In this paper, the first nontrivial $q$-Steiner systems with $t\,\geqslant \,2$ are constructed. Specifically, several nonisomorphic $q$-Steiner systems ${\mathcal{S}}_{2}(2,3,13)$ are found by requiring that their automorphism groups contain the normalizer of a Singer subgroup of $\text{GL}(13,2)$. This approach leads to an instance of the exact cover problem, which turns out to have many solutions.
Highlights
A finite projective plane of order q can be characterized as a Steiner system S(2, q + 1, q2 + q + 1), with lines as blocks
The Mathieu groups are most naturally understood as automorphism groups of certain Steiner systems
If we impose a prescribed group of automorphisms A on a putative solution, thereby reducing the size of the problem, the situation can still be described in terms of a system of linear equations
Summary
It has been known since the celebrated result of Teirlinck [48] that nontrivial t-designs exist for all t. A code is a collection of elements of An (where A is a fixed set, called the alphabet) that are well separated according to some metric, for example, the Hamming distance Such codes, are not appropriate for error correction in networks. Metsch [39] conjectured that nontrivial q-Steiner systems with t 2 do not exist in general In contrast to this conjecture, our main result is the following theorem.
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