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Research

Elizabeth Denne
edenne at smith.edu

Summary

I am interested in Geometric Knot Theory. My research uses topological knot invariants to answer questions about geometric properties of knots and links. Currently, I am interested in quadrisecants of knots. The existence of essential alternating quadrisecants has implications for geometric properties such as the total curvature, ropelength and distortion of a knot. I am also interested in optimal geometry, especially the difficult problem of optimizing the length of thick knots. My research has many applications to the natural sciences - biology, physics and engineering.

Some of my projects have been with undergraduates.
Click here for more information.

This page contains a list of my publications and preprints, my PhD Thesis, and the english translations of two papers.

Collaborators

Thanks to my wonderful collaborators:

Publications

In Preparation:

  • On the ``Squarepeg'' problem. Joint with J. Cantarella and J. McCleary. In preparation.
    We prove that C^1 Jordan curves have inscribed squares and then extend this result to curves of finite total curvature without cusps. We also discuss curves in R^n.
  • On flat-ribbon links in R^2. Joint with J.M. Sullivan and N. Wrinkle.
    We develop a theory of flat-ribbons in R^2. These are ribbons of fixed width about curves immersed in the plane. We also provide examples of critical configurations of several knot and link types.
  • Quadrisecants and unknotting number of knots.
    I show that any generic nontrivial polygonal knot K has at least u(K) alternating knots, where u(K) is the unknotting number of K.

Submitted:

  • Alternating quadrisecants of knots. See arxiv:math.GT/0510561.
    I prove that every non-trivial tame knot has an essential alternating quadrisecant. Alternating quadrisecants capture the knottedness of a knot. Their existence implies the Fary-Milnor theorem that every knot has total curvature at least 4π.

Accepted/Published:

  • The distortion of a knotted curve. Joint with J.M. Sullivan. Proc. Amer. Math. Soc. 137 no. 3 2009, pp 1139--1148. See arXiv:math.GT/049438.
    Gromov defined distortion as the maximum ratio of arclength to chordlength. We use the existence of an essential secant to show that any nontrivial tame knot in R^3 has distortion at least 5pi/3. Examples show that distortion under 7.1 suffices to build a trefoil knot.
  • Convergence and isotopy for graphs of finite total curvature. Joint with J.M. Sullivan. In "Discrete Differential Geometry" Birkhouser 2008 pp 163-174. See arXiv:math.GT/0606008
    Generalizing Milnor's result that an FTC (finite total curvature) knot has an isotopic inscribed polygon, we show that any two nearby knotted FTC graphs are isotopic by a small isotopy. We also show how to obtain sharper results when the starting curve is smooth.
  • Quadrisecants give new bounds for ropelength. Joint with Y. Diao, J.M. Sullivan. Geometry and Topology vol. 10, 2006 pp 1-26.
    We use quadrisecants to greatly improve the known lower bounds on ropelength. Our theoretical results are extremely close to computational estimates of the ropelength of small crossing knots.

PhD Thesis

Alternating Quadrisecants of Knots.
Ph.D. Thesis, Univeristy of Illinois at Urbana-Champaign. May 2004.

Thesis in pdf format (805Kb). (Note: 130 pages long.)

Translations

On the Total Curvature of a Nonplanar Knotted Curve by Istvan Fary. The translation from French is in pdf format. (Last modified October 2001.)

An Elementary Geometrical Property of Links and Knots by Erika Pannwitz. The translation from the German is in pdf format. (Last modified 5th June 2004.)