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Lattice-ordered power series fields

Part of: Ordered structures Topological rings and modules

Published online by Cambridge University Press:  09 April 2009

R. H. Redfield
R. H. Redfield
Affiliation:
Department of Mathematics and Computer ScienceHamilton College, ClintonNew York 13323, USA
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Abstract

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A lattice-ordered power series algebra of a totally ordered field over a rooted abelian group may be constructed in a way that is arbitrary only in requiring that a factor set be chosen in the field and an extended total order be chosen on the group modulo its torsion subgroup. The resulting algebra is a field if and only if the subalgebra of elements with torsion support form a field. It follows that if the torsion subgroup may be independently embedded in the algebraic closure of the totally ordered field, or if the resulting algebra has no zero-divisors, then the algebra is a field. The set of supporting subsets for the power series may be characterized abstractly in such a way that previous representation theorems of lattice-ordered fields into power series algebras may be applied to produce representations into power series fields.

Keywords

Lattice-ordered fieldslattice-ordered algebraspower seriesconvolutionHahn's Theoremrepresentations of ordered algebraic structuresproducts of ordered algebraic structures.

MSC classification

Secondary: 06F25: Ordered rings, algebras, modules 06F15: Ordered groups 13J05: Power series rings
Type
Research Article
Information
Journal of the Australian Mathematical Society , Volume 52 , Issue 3 , June 1992 , pp. 299 - 321
Copyright
Copyright © Australian Mathematical Society 1992

References

[1]Anderson, M., Feil, T., Lattice-ordered Groups: An Introduction (D. Reidel (Kluwer), Dordrecht, Holland, 1987).Google Scholar
[2]Bigard, A., Keimel, K., Wolfenstein, S., Groupes et Anneaux Réticulés (Lecture Notes in Math. 608, Springer-Verlag, Berlin, FRG, 1977).CrossRefGoogle Scholar
[3]Clifford, A. H., ‘Partially ordered abelian groups’, Ann. Math. 41 (1940), 465473.CrossRefGoogle Scholar
[4]Conrad, P., ‘Generalized semigroup rings’, J. Indian Math. Soc. 21 (1957), 7395.Google Scholar
[5]Conrad, P., Lattice-ordered Groups (Tulane University, New Orleans, USA, 1970).Google Scholar
[6]Conrad, P., Dauns, J., ‘An embedding theorem for lattice-ordered fields’, Pacific J. Math. 30 (1969), 385398.CrossRefGoogle Scholar
[7]Conrad, P., Harvey, J., Holland, W. C., ‘The Hahn embedding theorem for lattice-ordered groups’, Trans. Amer. Math. Soc. 108 (1963), 143169.CrossRefGoogle Scholar
[8]Fuchs, L., Partially Ordered Algebraic Structrues (Pergamon Press, Oxford, UK 1963).Google Scholar
[9]Hahn, H., ‘Über die nichtarchimedischen Grössensysteme’, Sitzungsber. Kaiserlichen Akad. Wiss. Vienna, Math. Natur. Kl. Abt. IIa 116 (1907), 601653.Google Scholar
[10]Jacobson, N., Lectures in Abstract Algebra III: Theory of Fields and Galois Theory (D. van Nostrand, Princeton, USA, 1964).CrossRefGoogle Scholar
[11]Kaplansky, I., ‘Maximal fields with valuations’, Duke Math. J. 9 (1942), 303321.CrossRefGoogle Scholar
[12]Lorenzen, P., ‘Abstrakte Begründung der multiplikativen Idealtheori’, Math. Z. 45 (1939), 533553.CrossRefGoogle Scholar
[13]Neumann, B. H., ‘On ordered division rings’, Trans. Amer. Math. Soc. 66 (1949), 202252.CrossRefGoogle Scholar
[14]Redfield, R. H., ‘Algebraic extensions and lattice-ordered fields’, Analysis Paper 15, Monash University, Melbourne, 1975.Google Scholar
[15]Redfield, R. H., ‘o-subfields of l-fields’, Abstract 75T-A225, Notices Math. Soc. 22 (1975), A–618.Google Scholar
[16]Redfield, R. H., ‘Banaschewski functions and rings embeddings’, Ordered Algebraic Structures, Proc. Conf. Curaçao, 1988, pp. 247255 (Kluwer Academic Publishers, Dordrecht, 1989).Google Scholar
[17]Redfield, R. H., ‘Representations of rings via Banaschewski functions’, (in preparation).Google Scholar
[18]Redfield, R. H., ‘Constructing lattice-ordered field and division rings’, Bull. Austral. Math. Soc. 40 (1989), 365369.CrossRefGoogle Scholar
[19]Redfield, R. H., ‘Lattice-ordered fields as convolution algebras’, J. of Algebra (to appear).Google Scholar
[20]Ribenboim, P., ‘Rings of generalized power series: nilpotent elements’, preprint.Google Scholar
[21]Ribenboim, P., ‘Rings of generalized power series II: units, zero divisors and semisimplicity’, preprint.Google Scholar
[22]Ribenboim, P., ‘Noetherian rings of generalized power series’, preprint.Google Scholar
[23]Rotman, J. J., The Theory of Groups: An Introduction (Allyn and Bacon, Boston, USA 1965).Google Scholar
[24]Schwartz, N., ‘Lattice-ordered fields’, Order 3 (1986), 179194.CrossRefGoogle Scholar