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Discrete Open and Closed Mappings on Generalized Continua and Newman's Property

Published online by Cambridge University Press:  20 November 2018

Louis F. McAuley
Affiliation:
The State University of New York at Binghamton, Binghamton, New York
Eric E. Robinson
Affiliation:
Ithaca College, Ithaca, New York
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In 1930, M. H. A. Newman proved a rather remarkable theorem which has become one of the classical theorems in topology. It has many important applications. A special case of Newman's Theorem is that a periodic homeomorphism of period n > 1 of a sphere S onto itself must have some orbit which is not contained in a “cap” smaller than a hemisphere. The general theorem is as follows:

THEOREM ([15]). Suppose that Mn is a connected (metric) n-manifold, U is a domain in Mn, andp is an integer greater than 1. Then there is a positive number d such that no uniformly continuous homeomorphism h of Mn onto itself of period p moves every point of U a distance < d. That is, there is x ∊ U so that the orbit of x under h has diameter ≦ d.

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 1984

References

1. Bing, R. H., Metrization of topological spaces, Can. J. Math. 3 (1951), 175186.Google Scholar
2. Bredon, G. E., Introduction to compact transformation groups (Academic Press, 1972).Google Scholar
3. Cernavskii, A. V., Finite-to-one open mappings of manifolds, Trans, of Mat. Sk. 65 (1964), 357369, AMS Transi. (2) 100 (1971), 253–267.Google Scholar
4. Church, P. T. and Hemmingsen, E., Light open mappings on n-manifolds, Duke Math. J. 27 (1960), 527536.Google Scholar
5. Church, P. T., Discrete mappings on manifolds, Mich. Math. J. 25 (1978), 351357.Google Scholar
6. Dress, A., Newman's theorem on transformation groups, Topology 8 (1969), 203207.Google Scholar
7. Duda, E. and Haynsworth, W. H., Finite-to-one open mappings, Can. J. Math. 23 (1971), 7783.Google Scholar
8. Floyd, E. E., Some characterizations of interior maps, Annals of Math. 51 (1950), 571575.Google Scholar
9. Ku, Hsu-Tung, Ku, Mei-Chin and Mann, L. N., Newman's theorem for pseudo-submersions, preprint.Google Scholar
10. Montgomery, D., Remark on continuous collections, to appear, PAMS.CrossRefGoogle Scholar
11. McAuley, L. F. and Robinson, E. E., On Newman's theorem for finite-to-one open mappings on manifolds, to appear, PAMS.Google Scholar
12. McAuley, L. F., Conditions under which light open mappings are homeomorphisms, Duke Math. J. 33 (1966), 445452.Google Scholar
13. McAuley, L. F., A characterization of light open mappings and the existence of group actions, Colloq. Math. 37 (1977), 5158.Google Scholar
14. Nagata, J., Modern dimensions theory (Interscience Publishers, New York, 1965).Google Scholar
15. Newman, M. H. A., A theorem on periodic transformations of spaces, Q. Jour. Math. 2 (1931), 19.Google Scholar
16. Robinson, E. E., A characterization of certain branched coverings as group actions, Fund. Math 70 (1979), 4345.Google Scholar
17. Sierpinski, W., General topology (University of Toronto Press, 1952).Google Scholar
18. Smith, P. A., Transformations of finite period. Ill Newman's theorem, Annals of Math. 42 (1941), 446457.Google Scholar
19. Väisälä, J., Discrete open mappings on manifolds, Ann. Acad. Fenn. Ser. A. I. (1966), 310.Google Scholar
20. Väisälä, J., Local topological properties of countable mappings, Duke Math. J. 41 (1974), 541546.Google Scholar
21. Whyburn, G. T., Analytic topology, Am. Math. Soc. Colloq. Publication 28 (1942).Google Scholar
22. Wilder, R. L., Topology of manifolds, AMS Colloquium Publications 32 (1949).Google Scholar
23. Wilson, D. C., Monotone open and light open dimension raising mappings, Ph.D. Thesis, Rutgers University (1969).Google Scholar
24. Wilson, D. C., Open mappings on manifolds and a counterexample to the Whyburn conjecture, Duke Math. J. 40 (1973), 705716.Google Scholar