Structure of semisimple rings in reverse and computable mathematics

Archive for Mathematical Logic 62 (7):1083-1100 (2023)
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Abstract

This paper studies the structure of semisimple rings using techniques of reverse mathematics, where a ring is left semisimple if the left regular module is a finite direct sum of simple submodules. The structure theorem of left semisimple rings, also called Wedderburn-Artin Theorem, is a famous theorem in noncommutative algebra, says that a ring is left semisimple if and only if it is isomorphic to a finite direct product of matrix rings over division rings. We provide a proof for the theorem in RCA0\mathrm RCA_{0}, showing the structure theorem for computable semisimple rings. The decomposition of semisimple rings as finite direct products of matrix rings over division rings is unique. Based on an effective proof of the Jordan-Hölder Theorem for modules with composition series, we also provide an effective proof for the uniqueness of the matrix decomposition of semisimple rings in RCA0\mathrm RCA_{0}.

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10.1007/s00153-023-00885-3

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References found in this work

Countable algebra and set existence axioms.Harvey M. Friedman - 1983 - Annals of Pure and Applied Logic 25 (2):141.
Subsystems of Second Order Arithmetic.Stephen G. Simpson - 1999 - Studia Logica 77 (1):129-129.
The Complexity of Radicals and Socles of Modules.Huishan Wu - 2020 - Notre Dame Journal of Formal Logic 61 (1):141-153.
Uniformly defined descending sequences of degrees.Harvey Friedman - 1976 - Journal of Symbolic Logic 41 (2):363-367.
Reverse Mathematics and Fully Ordered Groups.Reed Solomon - 1998 - Notre Dame Journal of Formal Logic 39 (2):157-189.

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