Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-26T06:13:59.302Z Has data issue: false hasContentIssue false

On the Stable Equivalence of Plat Representations of Knots and Links

Published online by Cambridge University Press:  20 November 2018

Joan S. Birman*
Affiliation:
Columbia University and Barnard College, New York, N. Y.
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

We are interested in the question of the decideability of the classical knot problem. A knot is the embedded image of a circle S1 in Euclidean 3-space E3. If L1, L2 are knots, then L1L2 if there is an orientation-preserving homeomorphism h: E3E3 with h(L1) = L2. By the “knot problem” we mean: given two arbitrary tame knots L1, L2 (a knot is tame if it is equivalent to a polygonal knot), decide in a finite number of steps whether L1 ≈ L2. The object of this paper is to show that the knot problem is ‘'stably equivalent“ to a problem of deciding membership in the double cosets of a distinguished subgroup K2n of the classical braid group B2n [1].

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 1976

References

1. Artin, E., Théorie der zbpfe, Hamburg Abh. 4 (1925), 4772.Google Scholar
2. Artin, E., Theory of braids, Ann. of Math. 48 (1947), 101126.Google Scholar
3. Baumslag, Gilbert, Automorphism groups of residually finite groups, J. London Math. Soc. 38 (1963), 117118.Google Scholar
4. Birman, Joan S., Braids, links and mapping class groups, to appear, Annals of Math. Studies, Princeton Univ. Press.Google Scholar
5. Birman, Joan S.,Equivalence classes of Heegaard splittings of closed, orientable 3-manifolds, annals of Math. Studies 84 (1975), 137164.Google Scholar
6. Birman, Joan S. and Hilden, Hugh M., The homeomorphism problem for Sz, Bull. A.M.S. 79 (1973), 10061010.Google Scholar
7. Birman, Joan S. and Hilden, Hugh M., Heegaard splittings of branched coverings of S3, to appear, Trans. Amer. Math. Soc.Google Scholar
8. Burau, , Uber zopfgruppen und gleichsinnig verdrillte verkettungen, Abh. Math. Sem. Hanischen Univ. 11 (1936), 171178.Google Scholar
9. Fox, Ralph, A quick trip through knot theory, in Topology of 3 Manifolds, Fort, M. K. Jr., Editor (Prentice-Hall, 1962).Google Scholar
10. Garside, F., The braid group and other groups, Quart. J. Math. Oxford 20 (1969), 235254.Google Scholar
11. Hilden, Hugh M., Generations for two subgroups of the braid group, to appear, Pacific J. Math.Google Scholar
12. McMillan, D. R. Jr., Homeomorphisms on a solid torus, Proc. A.M.S. 14 (1963), 386390.Google Scholar
13. Markov, A. A., Uber diefreie Àquivlenz geschlossener zôpfe, Recueil Math. Moscou 1 (1935), 7378.Google Scholar
14. Reidemeister, K., Zur dreidimensimalen topologie, Abh. Math. Sem. Hamburg 9 (1933), 189194.Google Scholar
15. Singer, James, Three-dimensional manifolds and their Heegaard diagrams, Trans. A.M.S. 35 (1933), 88111.Google Scholar
16. Whitten, Wilbur, Algebraic and geometric characterizations of knots, to appear.Google Scholar