Gorenstein matrices
Let \(A=(a_{ij})\) be an integral matrix. We say that \(A\) is \((0, 1, 2)\)-matrix if \(a_{ij}\in \{0, 1, 2\}\). There exists the Gorenstein \((0, 1, 2)\)-matrix for any permutation \(\sigma \) on the set \(\{1, \ldots , n\}\) without fixed elements. For every positive integer \(n\) there exists t...
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| Дата: | 2018 |
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| Автори: | , , , |
| Формат: | Стаття |
| Мова: | English |
| Опубліковано: |
Lugansk National Taras Shevchenko University
2018
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| Теми: | |
| Онлайн доступ: | https://admjournal.luguniv.edu.ua/index.php/adm/article/view/913 |
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| Назва журналу: | Algebra and Discrete Mathematics |
Репозитарії
Algebra and Discrete Mathematics| Резюме: | Let \(A=(a_{ij})\) be an integral matrix. We say that \(A\) is \((0, 1, 2)\)-matrix if \(a_{ij}\in \{0, 1, 2\}\). There exists the Gorenstein \((0, 1, 2)\)-matrix for any permutation \(\sigma \) on the set \(\{1, \ldots , n\}\) without fixed elements. For every positive integer \(n\) there exists the Gorenstein cyclic \((0, 1, 2)\)-matrix \(A_{n}\) such that \(inx\,A_{n}=2\).If a Latin square \({\mathcal L}_{n}\) with a first row and first column \((0, 1,\ldots n-1)\) is an exponent matrix, then \(n=2^{m}\) and \({\mathcal L}_{n}\) is the Cayley table of a direct product of \(m\) copies of the cyclic group of order 2. Conversely, the Cayley table \({{\mathcal E}}_{m}\) of the elementary abelian group \(G_{m}=(2)\times\ldots \times (2)\) of order \(2^{m}\) is a Latin square and a Gorenstein symmetric matrix with first row \((0, 1,\ldots , 2^{m}-1)\) and\(\sigma({{\mathcal E}}_{m})=\begin{pmatrix} 1&2&3&\ldots &2^{m}-1&2^{m}\\ 2^{m}&2^{m}-1&2^{m}-2&\ldots & 2&1\end{pmatrix}.\) |
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