Shin Satoh, Kenta Taniguchi (2014)
Fundamenta Mathematicae
Similarity:
Kauffman introduced a fundamental invariant of a virtual knot called the odd writhe. There are several generalizations of the odd writhe, such as the index polynomial and the odd writhe polynomial. In this paper, we define the n-writhe for each non-zero integer n, which unifies these invariants, and study various properties of the n-writhe.
Alexander Stoimenow (2003)
Annali della Scuola Normale Superiore di Pisa - Classe di Scienze
Similarity:
Using the recent Gauß diagram formulas for Vassiliev invariants of Polyak-Viro-Fiedler and combining these formulas with the Bennequin inequality, we prove several inequalities for positive knots relating their Vassiliev invariants, genus and degrees of the Jones polynomial. As a consequence, we prove that for any of the polynomials of Alexander/Conway, Jones, HOMFLY, Brandt-Lickorish-Millett-Ho and Kauffman there are only finitely many positive knots with the same polynomial and no...
Paweł Traczyk (1995)
Banach Center Publications
Similarity:
Louis H. Kauffman, Vassily O. Manturov (2005)
Fundamenta Mathematicae
Similarity:
We describe new approaches for constructing virtual knot invariants. The main background of this paper comes from formulating and bringing together the ideas of biquandle [KR], [FJK], the virtual quandle [Ma2], the ideas of quaternion biquandles by Roger Fenn and Andrew Bartholomew [BF], the concepts and properties of long virtual knots [Ma10], and other ideas in the interface between classical and virtual knot theory. In the present paper we present a new algebraic construction of virtual...
Willerton, Simon (2002)
Experimental Mathematics
Similarity:
Nafaa Chbili (2003)
Annales de la Faculté des sciences de Toulouse : Mathématiques
Similarity:
Ng, Lenhard L. (2001)
Algebraic & Geometric Topology
Similarity:
Roger Fenn, Louis H. Kauffman, Vassily O. Manturov (2005)
Fundamenta Mathematicae
Similarity:
The present paper gives a quick survey of virtual and classical knot theory and presents a list of unsolved problems about virtual knots and links. These are all problems in low-dimensional topology with a special emphasis on virtual knots. In particular, we touch new approaches to knot invariants such as biquandles and Khovanov homology theory. Connections to other geometrical and combinatorial aspects are also discussed.
Moshe Cohen, Oliver T. Dasbach, Heather M. Russell (2014)
Fundamenta Mathematicae
Similarity:
We develop a dimer model for the Alexander polynomial of a knot. This recovers Kauffman's state sum model for the Alexander polynomial using the language of dimers. By providing some additional structure we are able to extend this model to give a state sum formula for the twisted Alexander polynomial of a knot depending on a representation of the knot group.
Livingston, Charles (2002)
Algebraic & Geometric Topology
Similarity:
Roger Fenn, Denis P. Ilyutko, Louis H. Kauffman, Vassily O. Manturov (2014)
Banach Center Publications
Similarity:
This paper is a concise introduction to virtual knot theory, coupled with a list of research problems in this field.
Yasutaka Nakanishi (1996)
Revista Matemática de la Universidad Complutense de Madrid
Similarity:
This note is a continuation of a former paper, where we have discussed the unknotting number of knots with respect to knot diagrams. We will show that for every minimum-crossing knot-diagram among all unknotting-number-one two-bridge knot there exist crossings whose exchange yields the trivial knot, if the third Tait conjecture is true.
Livingston, Charles (2004)
Algebraic & Geometric Topology
Similarity:
Isabel Darcy, De Sumners (1998)
Banach Center Publications
Similarity:
The following is an expository article meant to give a simplified introduction to applications of topology to DNA.