Minimal Prime Element Space of an Algebraic Frame

Bhattacharjee, Papiya

01 July 2009

No description available.

Mathematics

Algebraic Frame

Compact

Pseudocomplement

Minimal Prime

Hull-Kernel Topology

Inverse Topology

Rigid Extension

r-extension

r*-extension

Topics on z-ideals of commutative rings

Tlharesakgosi, Batsile

02 1900

The first few chapters of the dissertation will catalogue what is known regarding z-ideals in commutative rings with identity. Some special attention will be paid to z-ideals in function rings to show how the presence of the topological description simplifies z-covers of arbitrary ideals. Conditions in an f-ring that ensure that the sum of z-ideals is a z-ideal will be given. In the latter part of the dissertation I will generalise a result in higher order z-ideals and introduce a notion of higher order d-ideals / Mathematical Sciences / M. Sc. (Mathematics)

Commutative ring

Z-ideal

D-ideal

Minimal prime ideal

Radical ideal

F-ring

Von Neumann regular ring

Higher order z-ideal

Higher order d-ideal

D-termination

512.44

Ideals (Algebra)

Commutative rings

Von Neumann algebras

Content Algebras and Zero-Divisors / Inhaltsalgebren und Nullteiler

Nasehpour, Peyman

10 February 2011

This thesis concerns two topics. The first topic, that is related to the Dedekind-Mertens Lemma, the notion of the so-called content algebra, is discussed in chapter 2. Let $R$ be a commutative ring with identity and $M$ be a unitary $R$-module and $c$ the function from $M$ to the ideals of $R$ defined by $c(x) = \cap \lbrace I \colon I \text{~is an ideal of~} R \text{~and~} x \in IM \rbrace $. $M$ is said to be a \textit{content} $R$-module if $x \in c(x)M $, for all $x \in M$. The $R$-algebra $B$ is called a \textit{content} $R$-algebra, if it is a faithfully flat and content $R$-module and it satisfies the Dedekind-Mertens content formula. In chapter 2, it is proved that in content extensions, minimal primes extend to minimal primes, and zero-divisors of a content algebra over a ring which has Property (A) or whose set of zero-divisors is a finite union of prime ideals are discussed. The preservation of diameter of zero-divisor graph under content extensions is also examined. Gaussian and Armendariz algebras and localization of content algebras at the multiplicatively closed set $S^ \prime = \lbrace f \in B \colon c(f) = R \rbrace$ are considered as well. In chapter 3, the second topic of the thesis, that is about the grade of the zero-divisor modules, is discussed. Let $R$ be a commutative ring, $I$ a finitely generated ideal of $R$, and $M$ a zero-divisor $R$-module. It is shown that the $M$-grade of $I$ defined by the Koszul complex is consistent with the definition of $M$-grade of $I$ defined by the length of maximal $M$-sequences in I$. Chapter 1 is a preliminarily chapter and dedicated to the introduction of content modules and also locally Nakayama modules.

content module

content algebra

locally Nakayama module

weak content algebra

few zero-divisors

Gaussian algebra

Armendariz algebra

zero-divisor graph

Grade

homological dimension

Property (A)

Zero-divisor module

semigroup ring

semigroup module

local cohomological module

McCoy's property

minimal prime

primal ring

31.23 - Ideale, Ringe, Moduln, Algebren

31.12 - Kombinatorik, Graphentheorie

13-02 - Research exposition

ddc:510