# Distributive Mendelsohn triple systems and the Eisenstein integers

**Authors:** Alex W. Nowak

arXiv: 1908.04966 · 2019-08-15

## TL;DR

This paper classifies a special class of Mendelsohn triple systems using Eisenstein integers, extending previous work and exploring their algebraic properties and representations.

## Contribution

It provides a complete classification of distributive, non-ramified Mendelsohn triple systems via Eisenstein integer representation theory.

## Key findings

- Classified all DNR Mendelsohn triple systems up to isomorphism.
- Extended the classification to include entropic MTS with orders divisible by 3.
- Established equivalences among properties like non-ramified, pure, and self-orthogonal for entropic MTS.

## Abstract

We define a Mendelsohn triple system (MTS) with self-distributive quasigroup multiplication and order coprime with $3$ to be distributive, non-ramified (DNR). We classify, up to isomorphism, all DNR MTS and enumerate isomorphism classes (extending the work of Donovan, Griggs, McCourt, Opr\v{s}al, and Stanovsk\'{y}). The classification is accomplished via the representation theory of the Eisenstein integers, $\mathbb{Z}[\zeta]=\mathbb{Z}[X]/(X^2-X+1)$. Containing the class of DNR MTS is that of MTS with an entropic (linear over an abelian group) quasigroup operation. Partial results on the classification of entropic MTS with order divisible by $3$ are given, and a complete classification is conjectured. We also prove that for any entropic MTS, the qualities of being non-ramified, pure, and self-orthogonal are equivalent. We introduce the varieties $\mathbf{RE}$ and $\mathbf{LE}$ of (resp. right and left) Eisenstein quasigroups, whose respective linear representation theories correspond to the alternative presentation $\mathbb{Z}[X]/(X^2+X+1)$ of the Eisenstein integers.

## Full text

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## References

36 references — full list in the complete paper: https://tomesphere.com/paper/1908.04966/full.md

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Source: https://tomesphere.com/paper/1908.04966