scholarly journals ON THE CLASSICAL PRIME SPECTRUM OF LATTICE MODULES

2019 ◽  
pp. 186-198 ◽  
Author(s):  
Pradip Girase ◽  
Vandeo Borkar ◽  
Narayan Phadatare
Keyword(s):  
Prime Spectrum

Zariski Topologies on Graded Ideals

2021 ◽  
Vol 78 (1) ◽  
pp. 215-224
Author(s):  
Malik Bataineh ◽  
Azzh Saad Alshehry ◽  
Rashid Abu-Dawwas
Keyword(s):  
Commutative Ring ◽  
Zariski Topology ◽  
Topological Properties ◽  
Prime Spectrum ◽  
Algebraic Properties

Abstract In this paper, we show there are strong relations between the algebraic properties of a graded commutative ring R and topological properties of open subsets of Zariski topology on the graded prime spectrum of R. We examine some algebraic conditions for open subsets of Zariski topology to become quasi-compact, dense, and irreducible. We also present a characterization for the radical of a graded ideal in R by using topological properties.

L-algebras and topology

2021 ◽  
Author(s):  
Wolfgang Rump
Keyword(s):  
Mapping Class Groups ◽  
Unitary Groups ◽  
Mapping Class ◽  
Heyting Algebras ◽  
Baxter Equation ◽  
Prime Spectrum ◽  
Class Groups ◽  
Orthomodular Lattices ◽  
And Topology ◽  
Torsion Free

[Formula: see text]-algebras are based on an equation which is fundamental in the construction of various torsion-free groups, including spherical Artin groups, Riesz groups, certain mapping class groups, para-unitary groups, and structure groups of set-theoretic solutions to the Yang–Baxter equation. A topological study of [Formula: see text]-algebras is initiated. A prime spectrum is associated to certain (possibly all) [Formula: see text]-algebras, including three classes of [Formula: see text]-algebras where the ideals are determined in a more explicite fashion. Known results on orthomodular lattices, Heyting algebras, or quantales are extended and revisited from an [Formula: see text]-algebraic perspective.

scholarly journals Centralizer near-rings that are rings

1995 ◽  
Vol 59 (2) ◽  
pp. 173-183 ◽  
Author(s):  
Jutta Hausen ◽  
Johnny A. Johnson
Keyword(s):  
Endomorphism Ring ◽  
Sufficient Conditions ◽  
Dedekind Domain ◽  
Prime Spectrum ◽  
Dedekind Domains ◽  
Composition Of Functions

AbstractGiven an R-module M, the centralizer near-ring ℳR (M) is the set of all functions f: M → M with f(xr)= f(x)r for all x ∈ M and r∈R endowed with point-wise addition and composition of functions as multiplication. In general, ℳR(M) is not a ring but is a near-ring containing the endomorphism ring ER(M) of M. Necessary and/or sufficient conditions are derived for ℳR(M) to be a ring. For the case that R is a Dedekind domain, the R-modules M are characterized for which (i) ℳR(M) is a ring; and (ii)ℳR(M) = ER(M). It is shown that over Dedekind domains with finite prime spectrum properties (i) and (ii) are equivalent.

scholarly journals On the importance of being primitive

2019 ◽  
Vol 53 (supl) ◽  
pp. 87-112
Author(s):  
Jason Bell
Keyword(s):  
Ring Theory ◽  
Prime Spectrum ◽  
Primitive Ideals

We give a brief survey of primitivity in ring theory and in particular look at characterizations of primitive ideals in the prime spectrum for various classes of rings.

On the prime spectrum of a mori domain

1996 ◽  
Vol 24 (11) ◽  
pp. 3599-3622 ◽  
Author(s):  
Valentina Barucci ◽  
Evan Houston
Keyword(s):  
Prime Spectrum

A localic approach to minimal prime spectra

1988 ◽  
Vol 103 (1) ◽  
pp. 47-53 ◽  
Author(s):  
Sun Shu-Hao
Keyword(s):  
Distributive Lattice ◽  
Prime Ideals ◽  
Zariski Topology ◽  
Topological Properties ◽  
Prime Spectrum ◽  
Minimal Prime

Throughout this paper, A will denote a distributive lattice with 0 and 1; we shall write spec A for the prime spectrum of A (i.e. the set of prime ideals of A, with the Stone–Zariski topology), and max A, min A for the subspaces of spec A consisting of maximal and minimal prime ideals respectively. These two subspaces have rather different topological properties: max A is always compact, but not always Hausdorff (indeed, any compact T1-space can occur as max A for some A), and min A is always Hausdorff (in fact zero-dimensional), but not always compact. (For more information on max A and min A, see Simmons[3].)

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