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CHAIN CONDITIONS ON ÉTALE GROUPOID ALGEBRAS WITH APPLICATIONS TO LEAVITT PATH ALGEBRAS AND INVERSE SEMIGROUP ALGEBRAS

Part of: Chain conditions, growth conditions, and other forms of finiteness Semigroups Topological and differentiable algebraic systems

Published online by Cambridge University Press:  28 March 2018

BENJAMIN STEINBERG
BENJAMIN STEINBERG*
Affiliation:
Department of Mathematics, City College of New York, Convent Avenue at 138th Street, New York, NY 10031, USA email bsteinberg@ccny.cuny.edu
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Abstract

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The author has previously associated to each commutative ring with unit $R$ and étale groupoid $\mathscr{G}$ with locally compact, Hausdorff and totally disconnected unit space an $R$-algebra $R\,\mathscr{G}$. In this paper we characterize when $R\,\mathscr{G}$ is Noetherian and when it is Artinian. As corollaries, we extend the characterization of Abrams, Aranda Pino and Siles Molina of finite-dimensional and of Noetherian Leavitt path algebras over a field to arbitrary commutative coefficient rings and we recover the characterization of Okniński of Noetherian inverse semigroup algebras and of Zelmanov of Artinian inverse semigroup algebras.

Keywords

étale groupoidsgroupoid algebraschain conditionsLeavitt path algebrasinverse semigroup algebras

MSC classification

Primary: 16P20: Artinian rings and modules
Secondary: 16P40: Noetherian rings and modules 22A22: Topological groupoids (including differentiable and Lie groupoids) 20M25: Semigroup rings, multiplicative semigroups of rings
Type
Research Article
Information
Journal of the Australian Mathematical Society , Volume 104 , Issue 3 , June 2018 , pp. 403 - 411
Copyright
© 2018 Australian Mathematical Publishing Association Inc. 

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