Von Neumann Regular Hyperrings and Applications to Real Reduced Multirings

IF 0.4 3区数学 Q4 LOGIC

Algebra and Logic Pub Date : 2024-05-09 DOI:10.1007/s10469-024-09739-0

H. R. O. Ribeiro, H. L. Mariano

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Abstract

A multiring is a ring-like structure where the sum is multivalued and a hyperring is a multiring with a strong distributive property. With every multiring we associate a structural presheaf, and when that presheaf is a sheaf, we say that the multiring is geometric. A characterization of geometric von Neumann hyperrings is presented. And we build a von Neumann regular hull for multirings which is used in applications to algebraic theory of quadratic forms. Namely, we describe the functor Q, introduced by M. Marshall in [J. Pure Appl. Alg., 205, No. 2, 452-468 (2006)], as a left adjoint functor for the natural inclusion of the category of real reduced multirings (similar to real semigroups) into the category of preordered multirings and explore some of its properties. Next, we employ sheaf-theoretic methods to characterize real reduced hyperrings as certain geometric von Neumann regular real hyperrings and construct the functor V , a geometric von Neumann regular hull for a multiring. Finally, we look at some interesting logical and algebraic interactions between the functors Q and V that are useful for describing hyperrings in the image of the functor Q and that will allow us to explore the theory of quadratic forms for (formally) real semigroups.

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冯-诺依曼正则超环及其在实还原多重环中的应用

多环是一种类似环的结构，其中的和是多值的，而超环是一种具有强分配性质的多环。每一个多接线都与一个结构预设相关联，当这个预设是一个剪子时，我们就说这个多接线是几何的。我们提出了几何冯-诺依曼超环的特征。我们还为多环建立了一个冯-诺依曼正则壳，并将其应用于二次型代数理论。也就是说，我们描述了马歇尔（M. Marshall）在[J. Pure Appl. Alg.接下来，我们用剪子理论的方法把实还原超环表征为某些几何冯-诺依曼正则实超环，并构造多环的几何冯-诺依曼正则壳的函子 V。最后，我们将探讨函子 Q 和 V 之间一些有趣的逻辑和代数相互作用，这些相互作用对于描述函子 Q 的像中的超环非常有用，并将使我们能够探索（形式上的）实半群的二次型理论。

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来源期刊

Algebra and Logic 数学-数学

CiteScore

1.10

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： This bimonthly journal publishes results of the latest research in the areas of modern general algebra and of logic considered primarily from an algebraic viewpoint. The algebraic papers, constituting the major part of the contents, are concerned with studies in such fields as ordered, almost torsion-free, nilpotent, and metabelian groups; isomorphism rings; Lie algebras; Frattini subgroups; and clusters of algebras. In the area of logic, the periodical covers such topics as hierarchical sets, logical automata, and recursive functions. Algebra and Logic is a translation of ALGEBRA I LOGIKA, a publication of the Siberian Fund for Algebra and Logic and the Institute of Mathematics of the Siberian Branch of the Russian Academy of Sciences. All articles are peer-reviewed.