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The classification of 2-dimensional rigid algebras
Abstract: Using the algebraic classification of all 2-dimensional algebras, we give the algebraic classification of all 2-dimensional rigid, conservative and terminal algebras over an algebraically closed field of characteristic 0. We have the geometric classification of the variety of 2-dimensional terminal algebras, and based on the geometric classification of these algebras we formulate some open problems.
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Cited by 23 publications
(9 citation statements)
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“…It is typical to focus on small dimensions, and there are two main directions for the classification: algebraic and geometric. Varieties as Jordan, Lie, Leibniz or Zinbiel algebras have been studied from these two approaches ( [1, 9, 12-15, 22, 27, 30, 37] and [3,5,6,9,11,22,24,25,31,32,[35][36][37][38], respectively). In the present paper, we give the algebraic and geometric classification of 4-dimensional nilpotent bicommutative algebras.…”
Section: Introductionmentioning
confidence: 99%
“…It is typical to focus on small dimensions, and there are two main directions for the classification: algebraic and geometric. Varieties as Jordan, Lie, Leibniz or Zinbiel algebras have been studied from these two approaches ( [1, 9, 12-15, 22, 27, 30, 37] and [3,5,6,9,11,22,24,25,31,32,[35][36][37][38], respectively). In the present paper, we give the algebraic and geometric classification of 4-dimensional nilpotent bicommutative algebras.…”
Section: Introductionmentioning
confidence: 99%
“…There are fewer works in which the full information about degenerations has been given for some variety of algebras. This problem was solved for 2-dimensional pre-Lie algebras [7], for 2-dimensional terminal algebras [11], for 3-dimensional Novikov algebras [8], for 3-dimensional Jordan algebras [25], for 3-dimensional Jordan superalgebras [6], for 3-dimensional Leibniz algebras [35], for 3-dimensional anticommutative algebras [35], for 3-dimensional nilpotent algebras [17], for 4-dimensional Lie algebras [9], for 4-dimensional Lie superalgebras [5], for 4-dimensional Zinbiel algebras [40], for 4-dimensional nilpotent Leibniz algebras [40], for 4-dimensional nilpotent commutative algebras [17], for 5-dimensional nilpotent Tortkara algebras [24], for 5-dimensional nilpotent anticommutative algebras [17], for 6-dimensional nilpotent Lie algebras [27,48], for 6-dimensional nilpotent Malcev algebras [41], for 2-step nilpotent 7-dimensional Lie algebras [4], and for all 2-dimensional algebras [42]. There are many results related to the algebraic and geometric classification of low-dimensional algebras in the varieties of Jordan, Lie, Leibniz and Zinbiel algebras; for algebraic classifications see, for example, [1, 11, 13-16, 22, 24, 32, 33, 35, 36, 39, 42]; for geometric classifications and descriptions of degenerations see, for example, [1, 3-6, 8, 9, 11, 20, 21, 23-25, 27, 28, 33-36, 38-48].…”
Section: Introductionmentioning
confidence: 99%
“…There are many results related to both the algebraic and geometric classification of small dimensional algebras in the varieties of Jordan, Lie, Leibniz and Zinbiel algebras; for algebraic results see, for example, [1,11,18,19,23,[25][26][27]30]; for geometric results see, for example, [1, 3-6, 8, 10, 11, 19-31, 34]. Here we give a geometric classification of 6-dimensional nilpotent Tortkara algebras over C. Our main result is Theorem 3 which describes the rigid algebras in this variety.…”
Section: Introductionmentioning
confidence: 99%
“…There are fewer works in which the full information about degenerations has been found for some variety of algebras. This problem has been solved for 2-dimensional pre-Lie algebras in [7], for 2-dimensional terminal algebras in [11], for 3-dimensional Novikov algebras in [8], for 3-dimensional Jordan algebras in [20], for 3-dimensional Jordan superalgebras in [6], for 3-dimensional Leibniz algebras in [25], for 3-dimensional anticommutative algebras in [25], for 4-dimensional Lie algebras in [10], for 4-dimensional Lie superalgebras in [5], for 4-dimensional Zinbiel algebras in [28], for 3-dimensional nilpotent algebras [17], for 4-dimensional nilpotent Leibniz algebras in [28], for 4-dimensional nilpotent commutative algebras [17], for 5-dimensional nilpotent Tortkara algebras in [19], for 5-dimensional nilpotent anticommutative algebras in [17], for 6-dimensional nilpotent Lie algebras in [21,34], for 6-dimensional nilpotent Malcev algebras in [29], for 7-dimensional 2-step nilpotent Lie algebras in [4], and for all 2dimensional algebras in [30].…”
Section: Introductionmentioning
confidence: 99%
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