2018
DOI: 10.1080/00927872.2018.1455099
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Maximal Subrings and Covering Numbers of Finite Semisimple Rings

Abstract: We classify the maximal subrings of the ring of n × n matrices over a finite field, and show that these subrings may be divided into three types. We also describe all of the maximal subrings of a finite semisimple ring, and categorize them into two classes. As an application of these results, we calculate the covering number of a finite semisimple ring.

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Cited by 8 publications
(12 citation statements)
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“…Thus, σ(R) = min{σ(S), σ(S 1 ), σ(S 2 )}. Since S 2 is not coverable and σ(S) = σ(S 1 ) by [27,Proposition 5.4], we get σ(R) = σ(S 1 ) = σ(M n (q 1 )). Finally, when n = 2, n − (n/a) = 1, so d n − (n/a) and R is not σ-elementary.…”
Section: Frequently Used Resultsmentioning
confidence: 99%
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“…Thus, σ(R) = min{σ(S), σ(S 1 ), σ(S 2 )}. Since S 2 is not coverable and σ(S) = σ(S 1 ) by [27,Proposition 5.4], we get σ(R) = σ(S 1 ) = σ(M n (q 1 )). Finally, when n = 2, n − (n/a) = 1, so d n − (n/a) and R is not σ-elementary.…”
Section: Frequently Used Resultsmentioning
confidence: 99%
“…Following Proposition 3.3, we seek a minimal cover by maximal subrings of S of the union of the centralizers C S (x). By [27,Theorem 4.5], any maximal subring of S has the form M 1 ⊕ S 2 or S 1 ⊕ M 2 , where M i is a maximal subring of S i . If q 2 > p, then the maximal subrings of S 2 ∼ = F q 2 are the maximal subfields of F q 2 ; otherwise, {0} is the only maximal subring of S 2 .…”
Section: 2mentioning
confidence: 99%
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“…It is natural to try and extend such results to other settings. For instance, coverings of rings have been studied (including very recently) in [7,9,13,24,28,39]. Yet another motivation comes from the short note [22], where the first named author found a sharp bound for the number of proper subspaces of a fixed codimension d !…”
Section: Introductionmentioning
confidence: 99%