Two kinds of enriched topological representations of Q-algebras

IF 0.7 4区数学 Q3 COMPUTER SCIENCE, THEORY & METHODS Journal of Logic and Computation Pub Date : 2023-06-08 DOI:10.1093/logcom/exad029

Xianglong Ruan

引用次数: 0

Abstract

Abstract In this paper, we continue the study of the enriched topological representation of $Q$-algebras where $Q$ is a unital quantale and give two kinds of enriched topological representations of $Q$-algebras. The first one is based on strong $M_3$-valued $Q$-algebra homomorphisms, and the second way is based on strong $M_6$-valued $Q$-algebra homomorphisms. For the first way, we first construct a spatial and semiunital $Q$-algebra $M_3$ containing three elements and show that prime elements of semiunital $Q$-algebras are identified with strong $Q$-algebra homomorphisms taking their values in $M_3$. Then we prove that a semiunital $Q$-algebra is spatial iff strong $Q$-algebra homomorphisms with values in $M_3$ separate elements. Based on this, we obtain that every spatial and semiunital $Q$-algebra can be identified with an $M_3$-enriched sober space. For the second enriched topological representation, we construct a spatial and semiunital $Q$-algebra $M_6$ containing exactly six elements and prove that every spatial and semiunital $Q$-algebra can be identified with an $M_6$-enriched sober space.

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q -代数的两种富拓扑表示

本文继续研究了$Q$-代数的富拓扑表示，其中$Q$是一个单位量子，并给出了$Q$-代数的两种富拓扑表示。第一种方法基于强$M_3$ Q$-代数同态，第二种方法基于强$M_6$ Q$-代数同态。对于第一种方法，我们首先构造了一个包含三个元素的空间半一元$Q$-代数$M_3$，并证明了半一元$Q$-代数的素数元素是由在$M_3$中取值的强$Q$-代数同态标识的。然后证明了一个半一元$Q$-代数是空间的强$Q$-代数同态，其值在$M_3$独立元素中。在此基础上，我们得到了每一个空间和半一元的$Q$-代数都可以被一个$M_3$-富集的清醒空间所识别。对于第二个富集拓扑表示，构造了一个包含六个元的空间半一元$Q$-代数$M_6$，并证明了每一个空间半一元$Q$-代数都可以被一个富集$M_6$的清醒空间所识别。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Logic and Computation 工程技术-计算机：理论方法

CiteScore

1.90

自引率

14.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Logic has found application in virtually all aspects of Information Technology, from software engineering and hardware to programming and artificial intelligence. Indeed, logic, artificial intelligence and theoretical computing are influencing each other to the extent that a new interdisciplinary area of Logic and Computation is emerging. The Journal of Logic and Computation aims to promote the growth of logic and computing, including, among others, the following areas of interest: Logical Systems, such as classical and non-classical logic, constructive logic, categorical logic, modal logic, type theory, feasible maths.... Logical issues in logic programming, knowledge-based systems and automated reasoning; logical issues in knowledge representation, such as non-monotonic reasoning and systems of knowledge and belief; logics and semantics of programming; specification and verification of programs and systems; applications of logic in hardware and VLSI, natural language, concurrent computation, planning, and databases. The bulk of the content is technical scientific papers, although letters, reviews, and discussions, as well as relevant conference reviews, are included.

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