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Matrix theory for independence algebras
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Advisor(s)
Abstract(s)
A universal algebra A with underlying set A is said to be a matroid algebra if (A, 〈·〉),
where 〈·〉 denotes the operator subalgebra generated by, is a matroid. A matroid algebra
is said to be an independence algebra if every mapping α : X → A defined on a minimal
generating X of A can be extended to an endomorphism of A. These algebras are particularly
well-behaved generalizations of vector spaces, and hence they naturally appear in several
branches of mathematics, such as model theory, group theory, and semigroup theory.
It is well known that matroid algebras have a well-defined notion of dimension. Let A
be any independence algebra of finite dimension n, with at least two elements. Denote by
End(A) the monoid of endomorphisms of A. In the 1970s, Glazek proposed the problem of
extending the matrix theory for vector spaces to a class of universal algebras which included
independence algebras. In this paper, we answer that problem by developing a theory of
matrices for (almost all) finite-dimensional independence algebras.
In the process of solving this, we explain the relation between the classification of inde-
pendence algebras obtained by Urbanik in the 1960s, and the classification of finite indepen-
dence algebras up to endomorphism-equivalence obtained by Cameron and Szab ́o in 2000.
(This answers another question by experts on independence algebras.) We also extend the
classification of Cameron and Szab ́o to all independence algebras.
The paper closes with a number of questions for experts on matrix theory, groups, semi-
groups, universal algebra, set theory or model theory.
Description
Preprint de J. Araújo, W. Bentz, P.J. Cameron, M. Kinyon, J. Konieczny, “Matrix Theory for Independence Algebras”, Linear Algebra and its Applications 642 (2022), 221-250.
Keywords
Matrix theory Semigroups Universal algebra Groups Fields Model theory
Citation
J. Araújo, W. Bentz, P.J. Cameron, M. Kinyon, J. Konieczny, “Matrix Theory for Independence Algebras”, Linear Algebra and its Applications 642 (2022), 221-250.
Publisher
Elsevier