by Slavik Jablan (The Mathematical Institute, Belgrade, Serbia) & Radmila Sazdanović (The Mathematical Institute, Belgrade, Serbia)

Table of Contents (66k)
Preface (68k)
Chapter 1: Notation of Knots and Links
1.1 Basic graph theory (176k)

LinKnot — Knot Theory by Computer provides a unique view of selected topics in knot theory suitable for students, research mathematicians, and readers with backgrounds in other exact sciences, including chemistry, molecular biology and physics.

The book covers basic notions in knot theory, as well as new methods for handling open problems such as unknotting number, braid family representatives, invertibility, amphicheirality, undetectability, non-algebraic tangles, polyhedral links, and (2,2)-moves.

Hands-on computations using Mathematica or the webMathematica package LinKnot (available online at http://math.ict.edu.rs) and beautiful illustrations facilitate better learning and understanding. LinKnot is also a powerful research tool for experimental mathematics implementation of Caudron's ideas. The use of Conway notation enables experimenting with large families of knots and links.

Conjectures discussed in the book are explained at length. The beauty, universality and diversity of knot theory is illuminated through various non-standard applications: mirror curves, fullerens, self-referential systems, and KL automata.

• Notation of Knots and Links
• Recognition and Generation of Knots and Links
• History of Knot Theory and Applications of Knots and Links