Algebras of slowly growing length

Int. J. Algebra Comput. Pub Date : 2022-03-07 DOI:10.1142/s0218196722500564
A. Guterman, D. Kudryavtsev
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引用次数: 5

Abstract

We investigate the class of finite dimensional not necessary associative algebras that have slowly growing length, that is, for any algebra in this class its length is less than or equal to its dimension. We show that this class is considerably big, in particular, finite dimensional Lie algebras as well as many other important classical finite dimensional algebras belong to this class, for example, Leibniz algebras, Novikov algebras, and Zinbiel algebras. An exact upper bounds for the length of these algebras is proved. To do this we transfer the method of characteristic sequences to non-unital algebras and find certain polynomial conditions on the algebra elements that guarantee the slow growth of the length function. MSC: 15A03,17A99,15A78
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长度缓慢增长的代数
研究一类长度缓慢增长的有限维非必要结合代数,即该类中任意代数的长度都小于或等于其维数。我们证明了这一类是相当大的,特别是有限维李代数以及许多其他重要的经典有限维代数都属于这一类,如莱布尼兹代数、诺维科夫代数、津比尔代数。证明了这些代数长度的一个精确上界。为此,我们将特征序列的方法推广到非一元代数中,并在代数元素上找到了保证长度函数缓慢增长的多项式条件。MSC: 15 a03 17 a99 15 a78
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Int. J. Algebra Comput.
Int. J. Algebra Comput.
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