Proves Schur-Zassenhaus and Sylow theorems for finite skew braces: Hall ideals have complements, left ideals of prime-power order lie in Sylow sub-skew braces, and the number of Sylow p-sub-skew braces is congruent to 1 mod p.
On the Sylow Theorem for Skew Braces
3 Pith papers cite this work. Polarity classification is still indexing.
abstract
We discuss the (first) Sylow theorem for certain classes of finite skew braces, proving it to hold true when the skew brace is two-sided, bi-skew, right nilpotent, $\lambda$-homomorphic or supersoluble. We also show it to hold true for soluble skew braces that are left-nilpotent, and address a number of more specialized settings, proving general Hall-type theorems.
fields
math.GR 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Proves that in a finite skew brace B, any ideal I with |I| coprime to |B/I| admits a complement in B.
Analogues of Sylow's first, Cauchy's, and Hall's theorems are established for finite skew braces, with application to classification of order pq examples.
citing papers explorer
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The Schur--Zassenhaus Theorem and Sylow's Third Theorem for Finite Skew Braces
Proves Schur-Zassenhaus and Sylow theorems for finite skew braces: Hall ideals have complements, left ideals of prime-power order lie in Sylow sub-skew braces, and the number of Sylow p-sub-skew braces is congruent to 1 mod p.
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A Schur--Zassenhaus Theorem for Finite Skew Braces
Proves that in a finite skew brace B, any ideal I with |I| coprime to |B/I| admits a complement in B.
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Analogues of Sylow's first theorem, Cauchy's theorem, and Hall's theorem for skew braces
Analogues of Sylow's first, Cauchy's, and Hall's theorems are established for finite skew braces, with application to classification of order pq examples.