Abstractly constructed prime spectra
Abstract
The main purpose of this paper is a wide generalization of one of the results abstract algebraic geometry begins with, namely of the fact that the prime spectrum of a unital commutative ring is always a spectral (=coherent) topological space. In this generalization, which includes several other known ones, the role of ideals of is played by elements of an abstract complete lattice equipped with binary multiplication with for all . In fact when no further conditions on are required, the resulting space can be and is only shown to be sober, and we discuss further conditions sufficient to make it spectral. This discussion involves establishing various comparison theorems on so-called prime, radical, solvable, and locally solvable elements of ; we also make short additional remarks on semiprime elements. We consider categorical and universal-algebraic applications involving general theory of commutators, and an application to ideals in what we call the commutative world. The cases of groups and of non-commutative rings are briefly considered separately.
Cite
@article{arxiv.2104.09840,
title = {Abstractly constructed prime spectra},
author = {Alberto Facchini and Carmelo Antonio Finocchiaro and George Janelidze},
journal= {arXiv preprint arXiv:2104.09840},
year = {2021}
}