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Equivalence classes of Latin squares and nets in ${ℂ P}^{2}$

Corey Dunn; Matthew Miller; Max Wakefield; Sebastian Zwicknagl — 2014

Annales de la faculté des sciences de Toulouse Mathématiques

The fundamental combinatorial structure of a net in $ℂ P^{2}$ is its associated set of mutually orthogonal Latin squares. We define equivalence classes of sets of orthogonal Latin squares by label equivalences of the lines of the corresponding net in $ℂ P^{2}$ . Then we count these equivalence classes for small cases. Finally we prove that the realization spaces of these classes in $ℂ P^{2}$ are empty to show some non-existence results for 4-nets in $ℂ P^{2}$ .

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Equivalence classes of Latin squares and nets in ℂ P 2

Equivalence classes of Latin squares and nets in ${ℂ P}^{2}$