Deissler Rank Complexity of Powers of Indecomposable Injective Modules

Deissler Rank Complexity of Powers of Indecomposable Injective Modules

R. Chartrand and T. Kucera

Source: Notre Dame J. Formal Logic Volume 35, Number 3 (1994), 398-402.

Abstract

Minimality ranks in the style of Deissler are one way of measuring the structural complexity of minimal extensions of first-order structures. In particular, positive Deissler rank measures the complexity of the injective envelope of a module as an extension of that module. In this paper we solve a problem of the second author by showing that certain injective envelopes have the maximum possible positive Deissler rank complexity. The proof shows that this complexity naturally reflects the internal structure of the injective extension in the form of the levels of the Matlis hierarchy.

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Primary Subjects: 03C60

Secondary Subjects: 13C11

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Links and Identifiers

Permanent link to this document: http://projecteuclid.org/euclid.ndjfl/1040511345
Mathematical Reviews number (MathSciNet): MR1326121
Digital Object Identifier: doi:10.1305/ndjfl/1040511345
Zentralblatt MATH identifier: 0840.03026

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References

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Mathematical Reviews (MathSciNet): MR58:27443

Zentralblatt MATH: 0393.03019

JSTOR: links.jstor.org

Digital Object Identifier: doi:10.2307/2272127

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JSTOR: links.jstor.org

Digital Object Identifier: doi:10.2307/2274444

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JSTOR: links.jstor.org

Digital Object Identifier: doi:10.2307/2274445

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Mathematical Reviews (MathSciNet): MR91e:16005

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Digital Object Identifier: doi:10.1080/00927878908823871

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Mathematical Reviews (MathSciNet): MR20:5800

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Project Euclid: euclid.pjm/1103039896

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JSTOR: links.jstor.org

Digital Object Identifier: doi:10.2307/2273549

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