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Groups with a quotient that contains the original group as a direct factor

Published online by Cambridge University Press:  17 April 2009

Ron Hirshon
Affiliation:
Polytechnic University Brooklyn, NY 11201United States of America
David Meier
Affiliation:
Pilgerweg 1 8044 ZurichSwitzerland
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Abstract

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We prove that given a finitely generated group G with a homomorphism of G onto G × H, H non-trivial, or a finitely generated group G with a homomorphism of G onto G × G, we can always find normal subgroups NG such that G/NG/N × H or G/NG/N × G/N respectively. We also show that given a finitely presented non-Hopfian group U and a homomorphism φ of U onto U, which is not an isomorphism, we can always find a finitely presented group HU and a finitely generated free group F such that φ induces a homomorphism of U * F onto (U * F) × H. Together with the results above this allows the construction of many examples of finitely generated groups G with GG × H where H is finitely presented. A finitely presented group G with a homomorphism of G onto G × G was first constructed by Baumslag and Miller. We use a slight generalisation of their method to obtain more examples of such groups.

Type
Research Article
Copyright
Copyright © Australian Mathematical Society 1992

References

[1]Baumslag, G. and Miller, C.F. III, ‘Some odd finitely presented groups’, Bull. London Math. Soc. 20 (1988), 239244.CrossRefGoogle Scholar
[2]Lyndon, R.C. and Schupp, P.E., Combinatorial Group Theory (Springer-Verlag, Berlin, Heidelberg, New York, 1977).Google Scholar
[3]Meier, D., ‘Non-hopfian groups’, J. Lond Math. Soc. 26 (1982), 265270.CrossRefGoogle Scholar
[4]Jones, J.M. Tyrer, ‘Direct products and the Hopf property’, J. Austral. Math. Soc. 17 (1974), 174196.CrossRefGoogle Scholar