A Group-Theoretic Proof of a Theorem of MacLagan-Wedderburn

Hans J. Zassenhaus

doi:10.1017/S2040618500035474

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The purpose of this paper is to present a proof of the following theorem of Maclagan-Wedderburn.*

Every finite skew-field† is a field.

The proof depends on group theory and on the properties of Galois fields. As an introduction, §§1–4 are devoted to a systematic and self-contained account of the theory of Galois fields.

References

* A Theorem on Finite Algebras. American M. S. Transactions, 6, pp. 349–352, (1905).Google Scholar

† A skew-field or division ring is an algebraic system which satisfies all the postulates of a field except possibly that which demands that multiplication shall be commutative; i.e., it is a ring, not necessarily commutative, whose non-zero elements form a multiplicative group. The theorem states that if the number of elements is finite, the commutative property of multiplication is a consequence of the other postulates.

‡ Liouville's Journal XI (1846), pp. 381–444.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Goheen, H. E. 1954. On a theorem of Zassenhaus. Proceedings of the American Mathematical Society, Vol. 5, Issue. 5, p. 799.

Goheen, Harry 1955. The Wedderburn Theorem. Canadian Journal of Mathematics, Vol. 7, Issue. , p. 60.

Sah, Chih-Han 1957. On a generalization of finite nilpotent groups. Mathematische Zeitschrift, Vol. 68, Issue. 1, p. 189.

Yaqub, Adil Newton, T. A. Nerode, A. Shank, H. Wright, Fred B. Herstein, I. N. Carlitz, L. Andrushkiw, Joseph W. Levine, Norman Boyd, A. V. and Davis, A. S. 1961. Mathematical Notes. The American Mathematical Monthly, Vol. 68, Issue. 3, p. 239.

Brandis, Albrecht 1964. Ein gruppentheoretischer Beweis für die Kommutativität endlicher Divisionsringe. Abhandlungen aus dem Mathematischen Seminar der Universität Hamburg, Vol. 26, Issue. 3-4, p. 234.

Bender, Helmut 1996. Group Theory, Algebra, and Number Theory. p. 97.

Brandl, Rolf Franciosi, Silvana and De Giovanni, Francesco 1999. Groups whose subgroups have small automizers. Rendiconti del Circolo Matematico di Palermo, Vol. 48, Issue. 1, p. 13.

Shirong, Li 2001. The Structure of NC-Groups. Journal of Algebra, Vol. 241, Issue. 2, p. 611.

KORCHAGINA, INNA 2007. ON THE CLASSIFICATION OF FINITE SANS-GROUPS. Journal of Algebra and Its Applications, Vol. 06, Issue. 03, p. 461.

Li*, Shi Rong and Guo**, Xiu Yun 2007. Finite p–Groups Whose Abelian Subgroups Have a Trivial Intersection. Acta Mathematica Sinica, English Series, Vol. 23, Issue. 4, p. 731.

An, Lijian Qu, Haipeng Xu, Mingyao and Yang, Chongsheng 2008. Quasi-NC groups. Communications in Algebra, Vol. 36, Issue. 11, p. 4011.

Qu, HaiPeng 2010. Finite p-groups all of whose maximal abelian subgroups are soft. Science China Mathematics, Vol. 53, Issue. 11, p. 3037.

Deaconescu, M. Khazal, R. R. and Walls, G. L. 2011. FORCING A FINITE GROUP TO BE ABELIAN. Mathematical Proceedings of the Royal Irish Academy, Vol. 111, Issue. -1, p. 29.

Deaconescu, Marian and Walls, Gary 2011. Groups St Andrews 2009 in Bath. p. 228.

Cutolo, Giovanni 2012. Groups with Finite Outer Automizers. Communications in Algebra, Vol. 40, Issue. 4, p. 1293.

Celentani, Maria Rosaria Cutolo, Giovanni and Leone, Antonella 2014. Groups with Cyclic Outer Automizers. Algebra Colloquium, Vol. 21, Issue. 03, p. 381.

Gong, L. Liu, W. and Zhao, L. 2016. Finite groups with small automizers of $${\mathcal {F}}$$ F -subgroups. Acta Mathematica Hungarica, Vol. 149, Issue. 1, p. 67.

Bai, Pengfei and Guo, Xiuyun 2018. Finite Groups in Which the Automizers of Some Abelian Subgroups are Trivial. Algebra Colloquium, Vol. 25, Issue. 04, p. 701.

Meng, Wei Yao, Hailou and Lu, Jiakuan 2019. Finite groups whose automizers of all abelian subgroups are either small or large. Communications in Algebra, Vol. 47, Issue. 2, p. 684.

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A Group-Theoretic Proof of a Theorem of MacLagan-Wedderburn

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