Invariants of Knot Cobordism.
J. LEVINE (1969)
Inventiones mathematicae
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Displaying similar documents to “Knot polynomials and Vassiliev's invariants.”
Invariants of Knot Cobordism.
Vassiliev invariants as polynomials
Simon Willerton (1998)
Banach Center Publications
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Three results are shown which demonstrate how Vassiliev invariants behave like polynomials.
A polynomial invariant for unoriented knots and links.
W.B.R. Lickorish, R.D. Brandt (1986)
Inventiones mathematicae
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Some New Invariants of Links.
Sadayoshi Kojima, Masyuki Yamasaki (1979)
Inventiones mathematicae
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A Knot Polynomial Invariant for Analysis of Topology of RNA Stems and Protein Disulfide Bonds
Wei Tian, Xue Lei, Louis H. Kauffman, Jie Liang (2017)
Molecular Based Mathematical Biology
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Knot polynomials have been used to detect and classify knots in biomolecules. Computation of knot polynomials in DNA and protein molecules have revealed the existence of knotted structures, and provided important insight into their topological structures. However, conventional knot polynomials are not well suited to study RNA molecules, as RNA structures are determined by stem regions which are not taken into account in conventional knot polynomials. In this study, we develop a new class...
From astrology to topology via Feynman diagrams and Lie algebras
Bar-Natan, Dror
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Summary of the three lectures. These notes are available electronically at http://www.ma.huji.ac.il/~drorbn/Talks/Srni-9901/notes.html.
On numerical invariants for knots in the solid torus
Khaled Bataineh (2015)
Open Mathematics
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We define some new numerical invariants for knots with zero winding number in the solid torus. These invariants explore some geometric features of knots embedded in the solid torus. We characterize these invariants and interpret them on the level of the knot projection. We also find some relations among some of these invariants. Moreover, we give lower bounds for some of these invariants using Vassiliev invariants of type one. We connect our invariants to the bridge number in the solid...
Virtual biquandles
Louis H. Kauffman, Vassily O. Manturov (2005)
Fundamenta Mathematicae
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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...
A conjecture on Khovanov's invariants
Stavros Garoufalidis (2004)
Fundamenta Mathematicae
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We formulate a conjectural formula for Khovanov's invariants of alternating knots in terms of the Jones polynomial and the signature of the knot.
The nonuniqueness of Chekanov polynomials of Legendrian knots.
Melvin, Paul, Shrestha, Sumana (2005)
Geometry & Topology
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A glimpse at knot theory
Paweł Traczyk (1995)
Banach Center Publications
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Link invariants from finite biracks
Sam Nelson (2014)
Banach Center Publications
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A birack is an algebraic structure with axioms encoding the blackboard-framed Reidemeister moves, incorporating quandles, racks, strong biquandles and semiquandles as special cases. In this paper we extend the counting invariant for finite racks to the case of finite biracks. We introduce a family of biracks generalizing Alexander quandles, (t,s)-racks, Alexander biquandles and Silver-Williams switches, known as (τ,σ,ρ)-biracks. We consider enhancements of the counting invariant using...