Division Algebras with Left Algebraic Commutators

Let D be a division algebra with center F and K a (not necessarily central) subfield of D . An element a ∈ D is called left algebraic (resp. right algebraic) over K , if there exists a non-zero left polynomial a 0 + a 1 x + ⋯ + a n x n (resp. right polynomial a 0 + x a 1 + ⋯ + x n a n ) over K such...

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Bibliographic Details
Published in:Algebras and representation theory 2018-08, Vol.21 (4), p.807-816
Main Authors: Aaghabali, M., Akbari, S., Bien, M. H.
Format: Article
Language:English
Subjects:
Algebra
Associative Rings and Algebras
Commutative Rings and Algebras
Commutators
Dividing (mathematics)
Mathematics
Mathematics and Statistics
Non-associative Rings and Algebras
Polynomials
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Summary:Let D be a division algebra with center F and K a (not necessarily central) subfield of D . An element a ∈ D is called left algebraic (resp. right algebraic) over K , if there exists a non-zero left polynomial a 0 + a 1 x + ⋯ + a n x n (resp. right polynomial a 0 + x a 1 + ⋯ + x n a n ) over K such that a 0 + a 1 a + ⋯ + a n a n = 0 (resp. a 0 + a a 1 + ⋯ + a n a n ). Bell et al. proved that every division algebra whose elements are left (right) algebraic of bounded degree over a (not necessarily central) subfield must be centrally finite. In this paper we generalize this result and prove that every division algebra whose all multiplicative commutators are left (right) algebraic of bounded degree over a (not necessarily central) subfield must be centrally finite provided that the center of division algebra is infinite. Also, we show that every division algebra whose multiplicative group of commutators is left (right) algebraic of bounded degree over a (not necessarily central) subfield must be centrally finite. Among other results we present similar result regarding additive commutators under certain conditions.
ISSN:1386-923X
1572-9079
DOI:10.1007/s10468-017-9739-3