On the structure of Leibniz algebras whose subalgebras are ideals or core-free

On the structure of Leibniz algebras whose subalgebras are ideals or core-free

An algebra \(L\) over a field \(F\) is said to be a Leibniz algebra (more precisely, a left Leibniz algebra) if it satisfies the Leibniz identity: \([[a, b], c] = [a, [b, c]] - [b, [a, c]]\) for all \(a, b, c \in L\). Leibniz algebras are generalizations of Lie algebras. A subalgebra \(S\) of a Leib...

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Bibliographic Details
Date:2020
Main Authors: Chupordia, V. A., Kurdachenko, L. A., Semko, N. N.
Format: Article
Language:English
Published: Lugansk National Taras Shevchenko University 2020
Subjects:
17A32
17A60
17A99
Online Access:https://admjournal.luguniv.edu.ua/index.php/adm/article/view/1533
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Journal Title:Algebra and Discrete Mathematics

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Algebra and Discrete Mathematics
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Summary:An algebra \(L\) over a field \(F\) is said to be a Leibniz algebra (more precisely, a left Leibniz algebra) if it satisfies the Leibniz identity: \([[a, b], c] = [a, [b, c]] - [b, [a, c]]\) for all \(a, b, c \in L\). Leibniz algebras are generalizations of Lie algebras. A subalgebra \(S\) of a Leibniz algebra \(L\) is called a core-free, if \(S\) does not include a non-zero ideal. We study the Leibniz algebras, whose subalgebras are either ideals or core-free.

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