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On the Isomorphism of Integral Group Rings. II

Published online by Cambridge University Press:  20 November 2018

Sudarshan K. Sehgal
Sudarshan K. Sehgal*
Affiliation:
University of Alberta, Edmonton, Alberta
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Let Z(G) denote the integral group ring of a group G. Let be the class of groups G with the property that for any isomorphism θ: Z(G) → Z(H), we have θ(g) = ±h, hH, for all gG. We study this class in § 2 and establish that it contains classes of torsion-free abelian groups, torsion abelian groups, and ordered groups.

In § 4, we prove the following result.

THEOREM. Let G be a group which contains a normal abelian subgroup A such that. Suppose that θ: Z(G) → Z(H) is an isomorphism such that θ(Δ(G, A)) = Δ(H, B) for a suitable normal subgroup B of H. Then GH. (Here Δ(G, A) is the kernel of the natural map Z(G) → Z(G/A).)

Jackson (3) and Whitcomb (6) proved the special case of this theorem when G is supposed to be finite metabelian. The lemmas needed are given in §3.

Type
Research Article
Information
Canadian Journal of Mathematics , Volume 21 , 1969 , pp. 1182 - 1188
Copyright
Copyright © Canadian Mathematical Society 1969

References

1. Banaschewski, B., Integral group rings of finite groups, Can. Math. Bull. 10 (1967), 635642.Google Scholar
2. Higman, G., The units of group rings, Proc. London Math. Soc. 46 (1940), 231248.Google Scholar
3. Jackson, D. A., On a problem in the theory of integral group rings, Ph.D. Thesis, Oxford University, Oxford, 1967.Google Scholar
4. Passman, D. S., Isomorphic groups and group rings, Pacific J. Math. 15 (1965), 561583.Google Scholar
5. Sehgal, S. K., On the isomorphism of integral group rings. I, Can. J. Math. 21 (1969), 410413 Google Scholar
6. Whitcomb, A., The group ring problem, Ph.D. Thesis, University of Chicago, Chicago, Illinois, 1968.Google Scholar