English

On $\ast$-homogeneous ideals

Commutative Algebra 2022-01-03 v3

Abstract

Let \ast be a star operation of finite character. Call a \ast -ideal II of finite type a \ast -homogeneous ideal if II is contained in a unique maximal \ast -ideal M=M(I).M=M(I). A maximal \ast -ideal that contains a \ast -homogeneous ideal is called \ast -potent and the same name bears a domain all of whose maximal \ast -ideals are \ast -potent. One among the various aims of this article is to indicate what makes a \ast -ideal of finite type a \ast -homogeneous ideal, where and how we can find one, what they can do and how this notion came to be. We also prove some results of current interest in ring theory using some ideas from this author's joint work in \cite{LYZ 2014} on partially ordered monoids. For example we characterize when a commutative Riesz monoid generates a Riesz group.

Keywords

Cite

@article{arxiv.1907.04384,
  title  = {On $\ast$-homogeneous ideals},
  author = {Muhammad Zafrullah},
  journal= {arXiv preprint arXiv:1907.04384},
  year   = {2022}
}
R2 v1 2026-06-23T10:16:46.816Z