Your search keyword '"Skein relation"' showing total 955 results

1. A combinatorial basis for the fermionic diagonal coinvariant ring

Author

Kim, Jesse

Subjects

Skein relation, coinvariant algebra, noncrossing set partition, cyclic sieving

Abstract

Let \(\Theta_n = (\theta_1, \dots, \theta_n)\) and \(\Xi_n = (\xi_1, \dots, \xi_n)\) be two lists of \(n\) variables and consider the diagonal action of \(\mathfrak{S}_n\) on the exterior algebra \(\wedge \{ \Theta_n, \Xi_n \}\) generated by these variables. Jongwon Kim and Rhoades defined and studied the fermionic diagonal coinvariant ring \(FDR_n\) obtained from \(\wedge \{ \Theta_n, \Xi_n \}\) by modding out by the \(\mathfrak{S}_n\)-invariants with vanishing constant term. The author and Rhoades gave a basis for the maximal degree components of this ring where the action of \(\mathfrak{S}_n\) could be interpreted combinatorially via noncrossing set partitions. This paper will do similarly for the entire ring, although the combinatorial interpretation will be limited to the action of \(\mathfrak{S}_{n-1} \subset \mathfrak{S}_n\). The basis will be indexed by a certain class of noncrossing partitions.Mathematics Subject Classifications: 05E10, 05E18, 20C30Keywords: Skein relation, coinvariant algebra, noncrossing set partition, cyclic sieving

Published

2023

2. A generalized skein relation for Khovanov homology and a categorification of the θ-invariant.

Author

Chlouveraki, M., Goundaroulis, D., Kontogeorgis, A., and Lambropoulou, S.

Subjects

HOMOLOGY theory, SPECTRAL sequences (Mathematics), POLYNOMIALS, MARKOV processes, EULER equations

Abstract

The Jones polynomial is a famous link invariant that can be defined diagrammatically via a skein relation. Khovanov homology is a richer link invariant that categorifies the Jones polynomial. Using spectral sequences, we obtain a skein-type relation satisfied by the Khovanov homology. Thanks to this relation, we are able to generalize the Khovanov homology in order to obtain a categorification of the θ-invariant, which is itself a generalization of the Jones polynomial. [ABSTRACT FROM AUTHOR]

Published

2021

3. Labels instead of coefficients: A label bracket ⋅ℒ which dominates the Jones polynomial 𝒳⋅, the Kuperberg bracket ⋅A2, and the normalized arrow polynomial 𝒲⋅.

Author

Akimova, Alyona A. and Manturov, Vassily O.

Subjects

*POLYNOMIALS, *BRACKETS, *LABELS

Abstract

In the present paper, we develop a picture formalism which gives rise to an invariant that dominates several known invariants of classical and virtual knots: the Jones polynomial 𝒳 ⋅ , the Kuperberg bracket ⋅ A 2 , and the normalized arrow polynomial 𝒲 ⋅ . [ABSTRACT FROM AUTHOR]

Published

2020

4. The Alexander polynomial of links in lens spaces.

Author

Horvat, E. and Gabrovšek, Boštjan

Subjects

*POLYNOMIALS, *SPACE, *FIBERS, *TOPOLOGICAL spaces

Abstract

We show how the Alexander polynomial of links in lens spaces is related to the classical Alexander polynomial of a link in the 3-sphere, obtained by cutting out the exceptional lens space fiber. It follows from this relationship that a certain normalization of the Alexander polynomial satisfies a skein relation in lens spaces. [ABSTRACT FROM AUTHOR]

Published

2019

5. Flags and tangles

Author

Fabian Haiden

Subjects

Pure mathematics, Iwahori–Hecke algebra, Endomorphism, Skein relation, Type (model theory), Mathematics::Geometric Topology, Braided monoidal category, Chain (algebraic topology), Mathematics::Quantum Algebra, Mathematics::Category Theory, Mathematics - Quantum Algebra, FOS: Mathematics, Quantum Algebra (math.QA), Geometry and Topology, Representation Theory (math.RT), Algebraic number, Mathematics::Representation Theory, Mathematics - Representation Theory, Mathematical Physics, Flag (geometry), Mathematics

Abstract

We show that two constructions yield equivalent braided monoidal categories. The first is topological, based on Legendrian tangles and skein relations, while the second is algebraic, in terms of chain complexes with complete flag and convolution-type products. The category contains Iwahori--Hecke algebras of type $A_n$ as endomorphism algebras of certain objects., Comment: v2: added discussion of dualities, more detailed proofs, typos corrected

Published

2021

6. Elementary Theory of the Alexander–Conway Polynomial.

Author

Sossinsky, A. B.

Subjects

*POLYNOMIALS, *ABSTRACT algebra, *ALGORITHMS, *PARTITION functions, *HOMOLOGY theory, *KNOT theory

Published

2020

7. Knot invariants with multiple skein relations.

Author

Zhiqing Yang

Subjects

*KNOT invariants, *POLYNOMIALS, *MATHEMATICAL variables, *STATISTICAL smoothing, *MATHEMATICAL analysis

Abstract

Given any oriented link diagram, one can construct knot invariants using skein relations. Usually such a skein relation contains three or four terms. In this paper, the author introduces several new ways to smooth a crossings, and uses a system of skein equations to construct link invariants. This invariant can also be modified by writhe to get a more powerful invariant. The modified invariant is a generalization of both the HOMFLYPT polynomial and the two-variable Kauffman polynomial. Using the diamond lemma, a simplified version of the modified invariant is given. It is easy to compute and is a generalization of the two-variable Kauffman polynomial. [ABSTRACT FROM AUTHOR]

Published

2018

8. Twist Formulas for One-Row Colored A2 Webs and $\mathfrak {s}\mathfrak {l}_{3}$ Tails of (2, 2m)-Torus Links

Author

Wataru Yuasa

Subjects

Combinatorics, Physics, Series (mathematics), General Mathematics, Skein relation, Diagram, Jones polynomial, Torus, Twist, Mathematics::Representation Theory, Lambda, Link (knot theory)

Abstract

The $\mathfrak {s}\mathfrak {l}_{3}$ colored Jones polynomial $J_{\lambda }^{\mathfrak {s}\mathfrak {l}_{3}}(L)$ is obtained by coloring the link components with two-row Young diagram λ. Although it is difficult to compute $J_{\lambda }^{\mathfrak {s}\mathfrak {l}_{3}}(L)$ in general, we can calculate it by using Kuperberg’s A2 skein relation. In this paper, we show some formulas for twisted two strands colored by one-row Young diagram in A2 web space and compute $J_{(n,0)}^{\mathfrak {s}\mathfrak {l}_{3}}(T(2,2m))$ for an oriented (2,2m)-torus link. These explicit formulas derives the $\mathfrak {s}\mathfrak {l}_{3}$ tail of T(2,2m). They also give explicit descriptions of the $\mathfrak {s}\mathfrak {l}_{3}$ false theta series with one-row coloring because the $\mathfrak {s}\mathfrak {l}_{2}$ tail of T(2,2m) is known as the false theta series.

Published

2021

9. History

Author

Huggett, Stephen, Jordan, David, Huggett, Stephen, and Jordan, David

Published

2001

10. A skein action of the symmetric group on noncrossing partitions.

Author

Rhoades, Brendon

Abstract

We introduce and study a new action of the symmetric group $${\mathfrak {S}}_n$$ on the vector space spanned by noncrossing partitions of $$\{1, 2,\ldots , n\}$$ in which the adjacent transpositions $$(i, i+1) \in {\mathfrak {S}}_n$$ act on noncrossing partitions by means of skein relations. We characterize the isomorphism type of the resulting module and use it to obtain new representation-theoretic proofs of cyclic sieving results due to Reiner-Stanton-White and Pechenik for the action of rotation on various classes of noncrossing partitions and the action of K-promotion on two-row rectangular increasing tableaux. Our skein relations generalize the Kauffman bracket (or Ptolemy relation) and can be used to resolve any set partition as a linear combination of noncrossing partitions in a $${\mathfrak {S}}_n$$ -equivariant way. [ABSTRACT FROM AUTHOR]

Published

2017

11. On a relation between conway polynomials of - and -Turk's head links.

Author

Takemura, Atsushi

Subjects

*POLYNOMIALS, *INTEGERS, *LINK theory, *KNOT theory, *LOW-dimensional topology

Abstract

The -Turk's head link is presented by the alternating diagram which is obtained from the standard diagram of the -torus link by crossing changes. In this paper, we show that for any integers and , the coefficients of in the Conway polynomials of the - and -Turk's head links coincide for and differ by sign for . We conjecture that this property holds for any . [ABSTRACT FROM AUTHOR]

Published

2016

12. Contact structures, excisions and sutured monopole Floer homology

Author

Zhenkun Li

Subjects

Pure mathematics, High Energy Physics::Lattice, Contact geometry, Magnetic monopole, Context (language use), 01 natural sciences, Connected sum, contact structures, Mathematics - Geometric Topology, Mathematics::K-Theory and Homology, 0103 physical sciences, FOS: Mathematics, 0101 mathematics, Mathematics::Symplectic Geometry, Mathematics, monopole Floer homology, Floer excisions, 010102 general mathematics, Skein relation, Geometric Topology (math.GT), sutured manifolds, Mathematics::Geometric Topology, Floer homology, 57M27, 57M25, 010307 mathematical physics, Geometry and Topology

Abstract

In this paper, we explore the interplay between contact structures and sutured monopole Floer homology. First, we study the behavior of contact elements, which were defined by Baldwin and Sivek, under the operation of performing Floer excisions, which was introduced to the context of sutured monopole Floer homology by Kronheimer and Mrowka. We then compute the sutured monopole Floer homology of some special balanced sutured manifolds, using tools closely related to contact geometry. For application, we obtain an exact triangle for the oriented skein relation in monopole theory and derive a connected sum formula for sutured monopole Floer homology., Comment: 34 pages, 11 figures. Correct typos in the new version. Comments are welcomed!

Published

2020

13. Full colored HOMFLYPT invariants, composite invariants and congruence skein relations

Author

Shengmao Zhu and Qingtao Chen

Subjects

Combinatorics, Physics, Conjecture, Colored, Skein, Mathematics::Quantum Algebra, Skein relation, Prove it, Statistical and Nonlinear Physics, Invariant (mathematics), Mathematics::Geometric Topology, Mathematical Physics

Abstract

In this paper, we investigate the properties of certain quantum invariants of links by using the HOMFLY skein theory. First, we obtain the limit behavior for the full colored HOMFLYPT invariant which is the natural generalization of the colored HOMFLYPT invariant. Then we focus on the composite invariant which is a certain combination of the full colored HOMFLYPT invariants. Motivated by the study of the Labastida–Marino–Ooguri–Vafa conjecture for the framed composite invariants of links, we introduce the notion of reformulated composite invariant $$\check{{\mathcal {R}}}_{p}({\mathcal {L}};q,a)$$ . By using the HOMFLY skein theory, we prove that $$\check{{\mathcal {R}}}_{p}({\mathcal {L}};q,a)$$ actually lies in the integral ring $$2{\mathbb {Z}}[(q-q^{-1})^2,a^{\pm 1}]$$ . Finally, we propose a conjectural congruence skein relation for $$\check{{\mathcal {R}}}_{p}({\mathcal {L}};q,a)$$ and prove it for certain special cases.

Published

2020

14. Skein relations for tangle Floer homology

Author

C.-M. Michael Wong and Ina Petkova

Subjects

Skein, Skein relation, Geometric Topology (math.GT), Mathematics::Algebraic Topology, Mathematics::Geometric Topology, Tangle, Combinatorics, Mathematics - Geometric Topology, Floer homology, Mathematics::K-Theory and Homology, Mathematics::Quantum Algebra, FOS: Mathematics, Bimodule, Geometry and Topology, Mathematics::Symplectic Geometry, Mathematical Physics, Differential (mathematics), Mathematics, Knot (mathematics)

Abstract

In a previous paper, V\'ertesi and the first author used grid-like Heegaard diagrams to define tangle Floer homology, which associates to a tangle $T$ a differential graded bimodule $\widetilde{\mathrm{CT}} (T)$. If $L$ is obtained by gluing together $T_1, \dotsc, T_m$, then the knot Floer homology $\hat{\mathrm{HFK}}(L)$ of $L$ can be recovered from $\widetilde{\mathrm{CT}} (T_1), \dotsc, \widetilde{\mathrm{CT}} (T_m)$. In the present paper, we prove combinatorially that tangle Floer homology satisfies unoriented and oriented skein relations, generalizing the skein exact triangles for knot Floer homology., Comment: 72 pages, 48 figures, 5 tables. Minor revisions

Published

2020

15. Invariants from the Seifert Matrix

Author

Murasugi, Kunio and Murasugi, Kunio

Published

1996

16. Torus Knots in Lens Spaces and Topological Strings

Author

Sébastien Stevan

Subjects

Nuclear and High Energy Physics, Topological quantum field theory, Skein relation, Statistical and Nonlinear Physics, Torus, Topological string theory, Tricolorability, Topology, Mathematics::Geometric Topology, Knot theory, Finite type invariant, High Energy Physics::Theory, Knot (unit), Mathematical Physics, Mathematics

Abstract

We study the invariant of knots in lens spaces defined from quantum Chern–Simons theory. By means of the knot operator formalism, we derive a generalization of the Rosso-Jones formula for torus knots in L(p,1). In the second part of the paper, we propose a B-model topological string theory description of torus knots in L(2,1).

Published

2021

17. K-theory of Jones polynomials.

Author

Glubokov, Andrey Yu. and Nikolaev, Igor V.

Subjects

*K-theory, *CHEBYSHEV polynomials, *POLYNOMIALS, *CUSP forms (Mathematics), *CLUSTER algebras

Abstract

We recover the Jones polynomials of knots and links from the K-theory of a cluster C ⁎ -algebra of the sphere with two cusps. In particular, an interplay between the Chebyshev and Jones polynomials is studied. [ABSTRACT FROM AUTHOR]

Published

2022

18. Tied links.

Author

Aicardi, Francesca and Juyumaya, Jesús

Subjects

*BRAID group (Knot theory), *MONOIDS, *GENERATORS of ideals (Algebra), *KNOT invariants, *KNOT polynomials, *KNOT theory

Abstract

In this paper, we introduce the tied links, i.e. ordinary links provided with some 'ties' between strands. The motivation for introducing such objects originates from a diagrammatical interpretation of the defining generators of the so-called algebra of braids and ties; indeed, one half of such generators can be interpreted as the usual generators of the braid algebra, and the other half can be interpreted as ties between consecutive strands; this interpretation leads to the definition of tied braids. We define an invariant polynomial for the tied links via a skein relation. Furthermore, we introduce the monoid of tied braids and we prove the corresponding theorems of Alexander and Markov for tied links. Finally, we prove that the invariant of tied links we defined can be obtained also by using the Jones recipe. [ABSTRACT FROM AUTHOR]

Published

2016

19. Infinitely many knots whose Whitehead doubles have the trivial first coefficient Kauffman polynomial

Author

Hideo Takioka

Subjects

Combinatorics, Algebra and Number Theory, Mathematics::Quantum Algebra, Kauffman polynomial, Skein relation, Mathematics::Geometric Topology, Mathematics

Abstract

We recall a skein relation of the first coefficient Kauffman polynomial for knots. By using the skein relation, we show that there exist infinitely many knots whose Whitehead doubles have the trivial first coefficient Kauffman polynomial.

Published

2021

20. Quantum link homology via trace functor I

Author

Anna Beliakova, Krzysztof K. Putyra, Stephan M. Wehrli, University of Zurich, and Beliakova, Anna

Subjects

Pure mathematics, Functor, General Mathematics, 010102 general mathematics, Braid group, Skein relation, Torus, Homology (mathematics), 16. Peace & justice, Bicategory, Mathematics::Algebraic Topology, Mathematics::Geometric Topology, 01 natural sciences, 10123 Institute of Mathematics, 510 Mathematics, Mathematics::Category Theory, 0103 physical sciences, 010307 mathematical physics, 0101 mathematics, Invariant (mathematics), 2600 General Mathematics, Mathematics, Singular homology

Abstract

Motivated by topology, we develop a general theory of traces and shadows for an endobicategory, which is a pair: bicategory and endobifunctor . For a graded linear bicategory and a fixed invertible parameter q, we quantize this theory by using the endofunctor $$\Sigma _q$$ such that $$\Sigma _q \alpha :=q^{-\deg \alpha }\Sigma \alpha $$ for any 2-morphism $$\alpha $$ and coincides with $$\Sigma $$ otherwise. Applying the quantized trace to the bicategory of Chen–Khovanov bimodules we get a new triply graded link homology theory called quantum annular link homology. If $$q=1$$ we reproduce Asaeda–Przytycki–Sikora homology for links in a thickened annulus. We prove that our homology carries an action of , which intertwines the action of cobordisms. In particular, the quantum annular homology of an n-cable admits an action of the braid group, which commutes with the quantum group action and factors through the Jones skein relation. This produces a nontrivial invariant for surfaces knotted in four dimensions. Moreover, a direct computation for torus links shows that the rank of quantum annular homology groups depend on the quantum parameter q.

Published

2019

21. Permutohedra for knots and quivers

Author

Jakub Jankowski, Piotr Kucharski, Hélder Larraguível, Piotr Sułkowski, Dmitry Noshchenko, String Theory (ITFA, IoP, FNWI), and Algebra, Geometry & Mathematical Physics (KDV, FNWI)

Subjects

Physics, High Energy Physics - Theory, Pure mathematics, Skein relation, Quiver, Structure (category theory), Holomorphic function, General Topology (math.GN), Parameterized complexity, FOS: Physical sciences, Mathematical Physics (math-ph), Mathematics::Geometric Topology, Moduli space, Knot (unit), High Energy Physics - Theory (hep-th), Mathematics - Quantum Algebra, Bijection, FOS: Mathematics, Quantum Algebra (math.QA), Mathematics::Representation Theory, Mathematics::Symplectic Geometry, Mathematical Physics, Mathematics - General Topology

Abstract

The knots-quivers correspondence states that various characteristics of a knot are encoded in the corresponding quiver and the moduli space of its representations. However, this correspondence is not a bijection: more than one quiver may be assigned to a given knot and encode the same information. In this work we study this phenomenon systematically and show that it is generic rather than exceptional. First, we find conditions that characterize equivalent quivers. Then we show that equivalent quivers arise in families that have the structure of permutohedra, and the set of all equivalent quivers for a given knot is parameterized by vertices of a graph made of several permutohedra glued together. These graphs can be also interpreted as webs of dual 3d $\mathcal{N}=2$ theories. All these results are intimately related to properties of homological diagrams for knots, as well as to multi-cover skein relations that arise in counting of holomorphic curves with boundaries on Lagrangian branes in Calabi-Yau three-folds., Comment: 72 pages, 36 figures

Published

2021

22. Thirty-two equivalence relations on knot projections

Author

Yusuke Takimura and Noboru Ito

Subjects

Discrete mathematics, Racks and quandles, Quantum invariant, 010102 general mathematics, 05 social sciences, Skein relation, Geometric Topology (math.GT), Knot polynomial, Tricolorability, 01 natural sciences, Knot theory, Combinatorics, Mathematics - Geometric Topology, Knot invariant, 0502 economics and business, FOS: Mathematics, Geometry and Topology, 0101 mathematics, 050203 business & management, Knot (mathematics), Mathematics

Abstract

We consider 32 homotopy classifications of knot projections (images of generic immersions from a circle into a 2-sphere). These 32 equivalence relations are obtained based on which moves are forbidden among the five type of Reidemeister moves. We show that 32 cases contain 20 non-trivial cases that are mutually different. To complete the proof, we obtain new tools, i.e., new invariants., 11 pages, 13 figures

Published

2020

23. The Profinite Completion of 3-Manifold Groups, Fiberedness and the Thurston Norm

Author

Michel Boileau, Stefan Friedl, Institut de Mathématiques de Marseille (I2M), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), Universität Regensburg (UR), I2m, Aigle, and Centre National de la Recherche Scientifique (CNRS)-École Centrale de Marseille (ECM)-Aix Marseille Université (AMU)

Subjects

Fibered knot, Figure-eight knot, Group Theory (math.GR), 01 natural sciences, Torus knot, [MATH.MATH-GR]Mathematics [math]/Group Theory [math.GR], Combinatorics, Mathematics - Geometric Topology, [MATH.MATH-GT]Mathematics [math]/Geometric Topology [math.GT], 0103 physical sciences, FOS: Mathematics, 0101 mathematics, [MATH]Mathematics [math], Mathematics, Trefoil knot, [MATH.MATH-GT] Mathematics [math]/Geometric Topology [math.GT], [MATH.MATH-GR] Mathematics [math]/Group Theory [math.GR], 010102 general mathematics, Skein relation, Geometric Topology (math.GT), Tricolorability, 16. Peace & justice, Mathematics::Geometric Topology, Knot theory, Algebra, Knot invariant, 010307 mathematical physics, Mathematics - Group Theory

Abstract

We show that a regular isomorphism of profinite completion of the fundamental groups of two 3-manifolds $N_1$ and $N_2$ induces an isometry of the Thurston norms and a bijection between the fibered classes. We study to what extent does the profinite completion of knot groups distinguish knots and show that it distinguishes each torus knot and the figure eight knot among all knots. We show also that it distinguishes between hyperbolic knots with cyclically commensurable complements under the assumption that their Alexander polynomials have at least one zero which is not a root of unity., 22 pages

Published

2020

24. O Aleksandrovem polinomu spletov v lečastih prostorih

Author

Eva Horvat and Boštjan Gabrovšek

Subjects

Lens (geology), Physics::Optics, Alexander polynomial, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Mathematics - Geometric Topology, Optics, FOS: Mathematics, skein relation, 57M27, 57M05 (primary), 57M25 (secondary), 0101 mathematics, Link (knot theory), Mathematics, Algebra and Number Theory, Fiber (mathematics), business.industry, links in 3-manifolds, links in lens spaces, 010102 general mathematics, Skein relation, Lens space, Geometric Topology (math.GT), udc:515.162, Mathematics::Geometric Topology, 010101 applied mathematics, business

Abstract

We show how the Alexander polynomial of links in lens spaces is related to the classical Alexander polynomial of a link in the 3-sphere, obtained by cutting out the exceptional lens space fibre. It follows from these relationship that a certain normalization of the Alexander polynomial satisfies a skein relation in lens spaces., Comment: 23 pages, 8 figures

Published

2020

25. A coupled Temperley-Lieb algebra for the superintegrable chiral Potts chain

Author

Murray T. Batchelor, Paul Wedrich, and Remy Adderton

Subjects

Statistics and Probability, Pure mathematics, Statistical Mechanics (cond-mat.stat-mech), 010102 general mathematics, Skein relation, Zero (complex analysis), General Physics and Astronomy, Bracket polynomial, FOS: Physical sciences, Statistical and Nonlinear Physics, Mathematical Physics (math-ph), Temperley–Lieb algebra, 01 natural sciences, Contractible space, Chain (algebraic topology), Modeling and Simulation, 0103 physical sciences, 0101 mathematics, 010306 general physics, Hamiltonian (control theory), Condensed Matter - Statistical Mechanics, Mathematical Physics, Mathematics, Resolution (algebra)

Abstract

The hamiltonian of the $N$-state superintegrable chiral Potts (SICP) model is written in terms of a coupled algebra defined by $N-1$ types of Temperley-Lieb generators. This generalises a previous result for $N=3$ obtained by J. F. Fjelstad and T. M\r{a}nsson [J. Phys. A {\bf 45} (2012) 155208]. A pictorial representation of a related coupled algebra is given for the $N=3$ case which involves a generalisation of the pictorial presentation of the Temperley-Lieb algebra to include a pole around which loops can become entangled. For the two known representations of this algebra, the $N=3$ SICP chain and the staggered spin-1/2 XX chain, closed (contractible) loops have weight $\sqrt{3}$ and weight $2$, respectively. For both representations closed (non-contractible) loops around the pole have weight zero. The pictorial representation provides a graphical interpretation of the algebraic relations. A key ingredient in the resolution of diagrams is a crossing relation for loops encircling a pole which involves the parameter $\rho= e^{ 2\pi \mathrm{i}/3}$ for the SICP chain and $\rho=1$ for the staggered XX chain. These $\rho$ values are derived assuming the Kauffman bracket skein relation., Comment: 10 pages, 4 figures, further cubic relations added

Published

2020

26. SU(3)-skein algebras and webs on surfaces

Author

Charles Frohman and Adam S. Sikora

Subjects

Surface (mathematics), Skein, General Mathematics, Skein relation, Bracket polynomial, Geometric Topology (math.GT), Disjoint sets, Type (model theory), 57K31, Combinatorics, Mathematics - Geometric Topology, Mathematics - Quantum Algebra, FOS: Mathematics, Quantum Algebra (math.QA), Triangulation, Ideal (ring theory), Mathematics

Abstract

The $SU_3$-skein algebra of a surface $F$ is spanned by isotopy classes of certain framed graphs in $F\times I$ called $3$-webs subject to the skein relations encapsulating relations between $U_q(sl(3))$-representations. These skein algebras are quantizations of the $SL(3)$-character varieties of surfaces. It is expected that their theory parallels that of the Kauffman bracket skein algebras. We make the first step towards developing that theory by proving that the reduced $SU_3$-skein algebra of any surface of finite type is finitely generated. We achieve that result by developing a theory of canonical forms of webs in surfaces. Specifically, we show that for any ideal triangulation of $F$ every reduced $3$-web can be uniquely decomposed into unions of pyramid formations of hexagons and disjoint arcs in the faces of the triangulation with possible additional "crossbars" connecting their edges along the ideal triangulation. We show that such canonical position is unique up to "crossbar moves". That leads us to an associated system of coordinates for webs in triangulated surfaces (counting intersections of the web with the edges of the triangulation and their rotation numbers inside of the faces of the triangulation) which determine a reduced web uniquely. Finally, we relate our skein algebras to $\cal A$-varieties of Fock-Goncharov and to $\text{Loc}_{SL(3)}$-varieties of Goncharov-Shen. We believe that our coordinate system for webs is a manifestation of a (quantum) mirror symmetry conjectured by Goncharov-Shen., Math. Z. to appear, 2nd version updated by a discussion of a relation of this work to Fock-Goncharov-Shen theory and by references to preprints which appeared since the original submission. 32 pages

Published

2020

27. A non-HOMFLY knot invariant

Author

Chun-Chung Hsieh

Subjects

Pure mathematics, 010102 general mathematics, Skein relation, General Physics and Astronomy, Feynman graph, Mathematics::Geometric Topology, 01 natural sciences, Knot invariant, Mathematics::Quantum Algebra, 0103 physical sciences, 010307 mathematical physics, Geometry and Topology, 0101 mathematics, Mathematics::Symplectic Geometry, Mathematical Physics, Mathematics

Abstract

In this article we will construct a knot invariant which is complementary to HOMFLY knot invariant by proving that the skein relation is not compatible with HOMFLY’s.

Published

2018

28. Finite type invariants for knotoids

Author

Sofia Lambropoulou, Manousos Manouras, and Louis H. Kauffman

Subjects

Combinatorics, Polynomial (hyperelastic model), Pure mathematics, Skein relation, Isotopy, Discrete Mathematics and Combinatorics, Complete theory, Bracket polynomial, Invariant (mathematics), Type (model theory), Mathematics::Geometric Topology, Mathematics, Knot theory

Abstract

We extend the theory of Vassiliev (or finite type) invariants for knots to knotoids using two different approaches. Firstly, we take closures on knotoids to obtain knots and we use the Vassiliev invariants for knots, proving that these are knotoid isotopy invariant. Secondly, we define finite type invariants directly on knotoids, by extending knotoid invariants to singular knotoid invariants via the Vassiliev skein relation. Then, for spherical knotoids we show that there are non-trivial type-1 invariants, in contrast with classical knot theory where type-1 invariants vanish. We give a complete theory of type-1 invariants for spherical knotoids, by classifying linear chord diagrams of order one, and we present examples arising from the affine index polynomial and the extended bracket polynomial.

Published

2021

29. An expression for the Homflypt polynomial and some applications.

Author

Emmes, David

Subjects

*POLYNOMIALS, *COEFFICIENTS (Statistics), *MATHEMATICAL inequalities, *MATHEMATICAL variables, *TOPOLOGICAL degree, *MATHEMATICAL functions, *INVARIANTS (Mathematics)

Abstract

Abstract: Associated with each oriented link is the two variable Homflypt polynomial. The Morton–Franks–Williams (MFW) inequality gives rise to an expression for the Homflypt polynomial with MFW coefficient polynomials. These MFW coefficient polynomials are labeled in a braid-dependent manner and may be zero, but display a number of interesting relations. One consequence is an expression for the first three Laurent coefficient polynomials in z as a function of the other coefficient polynomials and three link invariants: the minimum v-degree and v-span of the Homflypt polynomial, and the Conway polynomial. These expressions are used to derive additional properties of the Homflypt polynomial for general n-braid links. One specific result is that the Jones and Homflypt polynomials distinguish the same three-braid links. [Copyright &y& Elsevier]

Published

2013

30. A cobordism realizing crossing change on sl2 tangle homology and a categorified Vassiliev skein relation

Author

Jun Yoshida and Noboru Ito

Subjects

Khovanov homology, Pure mathematics, 010102 general mathematics, Skein relation, Cobordism, Mathematics::Algebraic Topology, Mathematics::Geometric Topology, 01 natural sciences, Tangle, 010101 applied mathematics, Morphism, Mathematics::K-Theory and Homology, Iterated function, Mathematics::Quantum Algebra, Geometry and Topology, 0101 mathematics, Invariant (mathematics), Mathematics::Symplectic Geometry, SL2(R), Mathematics

Abstract

We discuss degree-preserving crossing change on Khovanov homology in terms of cobordisms. Namely, using Bar-Natan's formalism of Khovanov homology, we investigate a sum of cobordisms that yields a morphism between complexes of two diagrams related by a change of crossing, which we call the “genus-one morphism.” We prove that the morphism is invariant under the moves of double points in tangle diagrams. As a consequence, in the spirit of Vassiliev theory, taking iterated mapping cones, we obtain invariants for singular tangles that extend sl(2) tangle homologies; examples include Lee homology, Bar-Natan homology, and Naot's universal Khovanov homology as well as Khovanov homology with arbitrary coefficients. We also verify that the invariant satisfies categorified analogues of Vassiliev skein relation and the FI relation.

Published

2021

31. THE VIRTUAL MAGNETIC KAUFFMAN BRACKET SKEIN MODULE AND SKEIN RELATIONS FOR THE f-POLYNOMIAL.

Author

ISHII, ATSUSHI, KAMADA, NAOKO, and KAMADA, SEIICHI

Subjects

*MANIFOLDS (Mathematics), *KNOT theory, *LOW-dimensional topology, *ALGEBRAIC topology, *DIFFERENTIAL geometry

Abstract

We introduce the virtual magnetic Kauffman bracket skein module, and show how to find a skein relation for the f-polynomial through the module. Furthermore, we give a unified approach to constructions of skein relations which hold under certain conditions. [ABSTRACT FROM AUTHOR]

Published

2008

32. TWISTED ALEXANDER POLYNOMIAL OF LINKS IN THE PROJECTIVE SPACE.

Author

HUYNH, VU Q. and LE, THANG T. Q.

Subjects

*REIDEMEISTER torsion, *POLYNOMIALS, *PROJECTIVE spaces, *PIECEWISE linear topology, *DEFORMATIONS (Mechanics)

Abstract

We use Reidemeister torsion to study a twisted Alexander polynomial, as defined by Turaev, for links in the projective space. Using sign-refined torsion, we derive a skein relation for a normalized form of this polynomial. [ABSTRACT FROM AUTHOR]

Published

2008

33. Relative Frequencies of Alternating and Nonalternating Prime Knots and Composite Knots in Random Knot Spaces

Author

Eric J. Rawdon, Uta Ziegler, Yuanan Diao, and Claus Ernst

Subjects

General Mathematics, Crossing number (knot theory), 010102 general mathematics, Skein relation, Tricolorability, Mathematics::Geometric Topology, 01 natural sciences, Knot theory, Combinatorics, Knot (unit), Seifert surface, Knot invariant, 0103 physical sciences, 0101 mathematics, 010306 general physics, Trefoil knot, Mathematics

Abstract

This article reports the results of an investigation into the average behavior of the knot spectrum (of knots up to 16 crossings) of a family of random knot spaces. A knot space in this family consists of random polygons of a given length in a spherical confinement of a given radius. The knot spectrum is the distribution of all knot types within a random knot space and is based on the probabilities that a randomly (and uniformly) chosen polygon from this knot space forms different knot types. We show that the relative spectrum of knots, when divided into groups by their crossing number, remains unexpectedly robust as these knot spaces vary. The relative spectrum for a given crossing number c is Pc(u)/Pc, where Pc is the probability that a uniformly chosen random polygon has crossing number c, and Pc(u) is the probability that the chosen polygon has crossing number c and is from the group of knots defined by the characteristic u (such as “alternating prime,” “nonalternating prime,” or “composite”)....

Published

2017

34. Quantum statistical mechanics in arithmetic topology

Author

Matilde Marcolli and Yujie Xu

Subjects

Crossing number (knot theory), FOS: Physical sciences, General Physics and Astronomy, Arithmetic topology, 01 natural sciences, Mathematics - Geometric Topology, Knot (unit), Mathematics::K-Theory and Homology, 0103 physical sciences, FOS: Mathematics, 0101 mathematics, Quantum statistical mechanics, Mathematical Physics, Mathematics, Discrete mathematics, Mathematics::Operator Algebras, 82B10, 57M25, 57M12, 46L55, 58B34, 010102 general mathematics, Skein relation, Geometric Topology (math.GT), Mathematical Physics (math-ph), Mathematics::Geometric Topology, Noncommutative geometry, Knot theory, Operator algebra, 010307 mathematical physics, Geometry and Topology

Abstract

This paper provides a construction of a quantum statistical mechanical system associated to knots in the 3-sphere and cyclic branched coverings of the 3-sphere, which is an analog, in the sense of arithmetic topology, of the Bost-Connes system, with knots replacing primes, and cyclic branched coverings of the 3-sphere replacing abelian extensions of the field of rational numbers. The operator algebraic properties of this system differ significantly from the Bost-Connes case, due to the properties of the action of the semigroup of knots on a direct limit of knot groups. The resulting algebra of observables is a noncommutative Bernoulli crossed product. We describe the main properties of the associated quantum statistical mechanical system and of the relevant partition functions, which are obtained from simple knot invariants like genus and crossing number., Comment: 43 pages, LaTeX, 2 jpg figures

Published

2017

35. Polynomials and Homotopy of Virtual Knot Diagrams

Author

Maeng Sang Park, Chan-Young Park, and Myeong-Ju Jeong

Subjects

Pure mathematics, Applied Mathematics, General Mathematics, Quantum invariant, 010102 general mathematics, Skein relation, Knot polynomial, Tricolorability, 01 natural sciences, Regular homotopy, Virtual knot, Combinatorics, Knot invariant, 0103 physical sciences, 010307 mathematical physics, 0101 mathematics, Knot (mathematics), Mathematics

Published

2017

36. TWO DIMENSIONAL ARRAYS FOR ALEXANDER POLYNOMIALS OF TORUS KNOTS

Author

Hyun-Jong Song

Subjects

Combinatorics, Applied Mathematics, General Mathematics, Skein relation, Torus, Mathematics, Knot theory

Published

2017

37. Virtual knot groups and almost classical knots

Author

Hans U. Boden, Eric Harper, Andrew Nicas, Lindsay White, and Robin Gaudreau

Subjects

Algebra and Number Theory, Root of unity, 010102 general mathematics, Skein relation, Geometric Topology (math.GT), Alexander polynomial, Mathematics::Geometric Topology, 01 natural sciences, Virtual knot, Combinatorics, Mathematics - Geometric Topology, Knot (unit), Seifert surface, Knot group, 57M25, 57M27, 0103 physical sciences, FOS: Mathematics, 010307 mathematical physics, 0101 mathematics, Invariant (mathematics), Mathematics

Abstract

We define a group-valued invariant of virtual knots and relate it to various other group-valued invariants of virtual knots, including the extended group of Silver-Williams and the quandle group of Manturov and Bardakov-Bellingeri. A virtual knot is called almost classical if it admits a diagram with an Alexander numbering, and in that case we show that the group factors as a free product of the usual knot group and Z. We establish a similar formula for mod p almost classical knots, and we use these results to derive obstructions to a virtual knot K being mod p almost classical. Viewed as knots in thickened surfaces, almost classical knots correspond to those that are homologically trivial. We show they admit Seifert surfaces and relate their Alexander invariants to the homology of the associated infinite cyclic cover. We prove the first Alexander ideal is principal, recovering a result first proved by Nakamura et al. using different methods. The resulting Alexander polynomial is shown to satisfy a skein relation, and its degree gives a lower bound for the Seifert genus. We tabulate almost classical knots up to 6 crossings and determine their Alexander polynomials and virtual genus., Comment: 44 pages

Published

2017

38. 2-Adjacency between pretzel links and the trivial link

Author

Zhi-Xiong Tao

Subjects

010308 nuclear & particles physics, Quantum invariant, 010102 general mathematics, Skein relation, Jones polynomial, Knot polynomial, Mathematics::Geometric Topology, 01 natural sciences, Combinatorics, Knot invariant, (−2,3,7) pretzel knot, 0103 physical sciences, Geometry and Topology, 0101 mathematics, Knot (mathematics), Mathematics, Pretzel link

Abstract

We study 2-adjacency between a 3-strand pretzel link with two components and the trivial link, and whether the trivial knot is 2-adjacent to a pretzel knot. By investigating mainly the coefficients of their Conway polynomials, Jones polynomials and etc., we show that any nontrivial pretzel link with two-components is not 2-adjacent to the trivial link, and vice versa. Moreover, we also show that the trivial knot is not 2-adjacent to any nontrivial pretzel knot.

Published

2016

39. The 4--CB Algebra and Solvable Lattice Models

Author

Jian-Rong Li, Vladimir Belavin, Ran J. Tessler, and Doron Gepner

Subjects

High Energy Physics - Theory, Nuclear and High Energy Physics, Lattice Integrable Models, FOS: Physical sciences, 01 natural sciences, Lattice (order), Mathematics::Quantum Algebra, 0103 physical sciences, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, Degree of a polynomial, Integrable Field Theories, 0101 mathematics, 010306 general physics, Mathematical Physics, Ansatz, Physics, Conformal Field Theory, Conjecture, Conformal field theory, 010102 general mathematics, Skein relation, Mathematical Physics (math-ph), Knot theory, Algebra, High Energy Physics - Theory (hep-th), Isospin, lcsh:QC770-798

Abstract

We study the algebras underlying solvable lattice models of the type fusion interaction round the face (IRF). We propose that the algebras are universal, depending only on the number of blocks, which is the degree of polynomial equation obeyed by the Boltzmann weights. Using the Yang--Baxter equation and the ansatz for the Baxterization of the models, we show that the three blocks models obey a version of Birman--Murakami--Wenzl (BMW) algebra. For four blocks, we conjecture that the algebra is the BMW algebra with a different skein relation, along with one additional relation, and we provide evidence for this conjecture. We connect these algebras to knot theory by conjecturing new link invariants. The link invariants, in the case of four blocks, depend on three arbitrary parameters. We check our result for $G_2$ model with the seven dimensional representation and for $SU(2)$ with the isospin $3/2$ representation, which are both four blocks theories., 51 pages, 2 figures

Published

2019

40. A simple algorithm to compute link polynomials defined by using skein relations

Author

Xuezhi Zhao

Subjects

Pure mathematics, QC1-999, link, Biophysics, braid representative, Set (abstract data type), Mathematics - Geometric Topology, Simple (abstract algebra), Mathematics::Quantum Algebra, FOS: Mathematics, Braid, Invariant (mathematics), Link (knot theory), Molecular Biology, Mathematical Physics, SIMPLE algorithm, Mathematics, Physics, Applied Mathematics, Skein relation, Order (ring theory), Geometric Topology (math.GT), Mathematics::Geometric Topology, Computational Mathematics, 57M25, polynomial invariant, TP248.13-248.65, Biotechnology

Abstract

We give a simple and practical algorithm to compute the link polynomials, which are defined according to the skein relations. Our method is based on a new total order on the set of all braid representatives. As by-product a new complete link invariant are obtained.

Published

2019

41. Generating Set for Nonzero Determinant Links Under Skein Relation

Author

Aayush Karan

Subjects

Pure mathematics, Mathematics - Geometric Topology, Skein, Hopf link, Skein relation, Generating set of a group, FOS: Mathematics, Geometric Topology (math.GT), Geometry and Topology, Invariant (mathematics), Unknot, Mathematics::Geometric Topology, Mathematics

Abstract

Traditionally introduced in terms of advanced topological constructions, many link invariants may also be defined in much simpler terms given their values on a few initial links and a recursive formula on a skein triangle. Then the crucial question to ask is how many initial values are necessary to completely determine such a link invariant. We focus on a specific class of invariants known as nonzero determinant link invariants, defined only for links which do not evaluate to zero on the link determinant. We restate our objective by considering a set $\mathcal{S}$ of links subject to the condition that if any three nonzero determinant links belong to a skein triangle, any two of these belonging to $\mathcal{S}$ implies that the third also belongs to $\mathcal{S}$. Then we aim to determine a minimal set of initial generators so that $\mathcal{S}$ is the set of all links with nonzero determinant. We show that only the unknot is required as a generator if the skein triangle is unoriented. For oriented skein triangles, we show that the unknot and Hopf link orientations form a set of generators., Comment: 8 figures, 22 pages

Published

2019

42. Extending the Classical Skein

Author

Sofia Lambropoulou and Louis H. Kauffman

Subjects

Pure mathematics, Generalization, Skein, Kauffman polynomial, Skein relation, Regular isotopy, Algebraic number, Invariant (mathematics), Mathematics::Geometric Topology, Ambient isotopy, Mathematics

Abstract

We summarize the theory of a new skein invariant of classical links H[H] that generalizes the regular isotopy version of the Homflypt polynomial, H. The invariant H[H] is based on a procedure where we apply the skein relation only to crossings of distinct components, so as to produce collections of unlinked knots and then we evaluate the resulting knots using the invariant H and inserting at the same time a new parameter. This procedure, remarkably, leads to a generalization of H but also to generalizations of other known skein invariants, such as the Kauffman polynomial. We discuss the different approaches to the link invariant H[H], the algebraic one related to its ambient isotopy equivalent invariant \(\Theta \), the skein-theoretic one and its reformulation into a summation of the generating invariant H on sublinks of a given link. We finally give examples illustrating the behaviour of the invariant H[H] and we discuss further research directions and possible application areas.

Published

2019

43. Knot and Link Invariants

Author

David M. Jackson and Iain Moffatt

Subjects

Pure mathematics, Knot (unit), Knot invariant, Skein relation, Mathematics::Geometric Topology, Mathematics

Abstract

This chapter introduces the concept of a knot invariant. Knot invariants are mathematical devices for determining when knots and links are inequivalent. It discusses various approaches to the construction of knot invariants, giving examples that arise from each approach. Particular attention is paid to knot polynomials defined through skein relations.

Published

2019

44. A Knot Invariant Defined Based on the Skein Relation with Two Equations

Author

Lu Huimin and Liu Weili

Subjects

Pure mathematics, Knot (unit), Knot invariant, Skein relation, Geometric topology, General Materials Science, Invariant (mathematics), Unknot, Link (knot theory), Mathematics::Geometric Topology, Knot theory, Mathematics

Abstract

Knot theory is a branch of the geometric topology, the core question of knot theory is to explore the equivalence classification of knots; In other words, for a knot, how to determine whether the knot is an unknot; giving two knots, how to determine whether the two knots are equivalent. To prove that two knots are equivalent, it is necessary to turn one knot into another through the same mark transformation, but to show that two knots are unequal, the problem is not as simple as people think. We cannot say that they are unequal because we can't see the deformation between them. For the equivalence classification problem of knots, we mainly find equivalent invariants between knots. Currently, scholars have also defined multiple knot invariants, but they also have certain limitations, and even more difficult to understand. In this paper, based on existing theoretical results, we define a knot invariant through the skein relation with two equations. To prove this knot invariant, we define a function f(L), and to prove f(L) to be a homology invariant of a non-directed link, we need to show that it remains constant under the Reideminster moves. This article first defines the fk(L), the property of f(L) is obtained by using the properties of fk(L). In the process of proof, the induction method has been used many times. The proof process is somewhat complicated, but it is easier to understand. And the common knot invariant is defined by one equation, which defining the knot invariant with two equations in this paper.

Published

2021

45. Hyperbolicity of 3-trip Lorenz knots

Author

Jiming Ma

Subjects

Discrete mathematics, Pure mathematics, Mathematics::Dynamical Systems, Modulo, 010102 general mathematics, 05 social sciences, Skein relation, Braid group, Torus, Mathematics::Geometric Topology, 01 natural sciences, Knot theory, Conjugacy class, 0502 economics and business, Geometry and Topology, 0101 mathematics, Link (knot theory), 050203 business & management, Pseudo-Anosov map, Mathematics

Abstract

Using Xu's conjugacy algorithm on the braid group B 3 [6] , [31] and the hyperbolicity criterion of 3-braid links by Futer–Kalfagianni–Purcell [14] , we classify Lorenz knots of trip number 3 into torus knots and hyperbolic knots. Moreover, we provide another approach to this problem. Modulo a conjectural pseudo-Anosov criterion, we can also classify Lorenz knots of trip number 3 based upon the Dehornoy floor theory. The author believes that the second approach is promising for the hyperbolicity of more classes of Lorenz knots.

Published

2016

46. Monodromy Maps of Fibered 2-Bridge Knots as Elements in Automorphism Groups of Free Groups

Author

Masaaki Suzuki and Hiroshi Goda

Subjects

Algebra, Pure mathematics, Knot (unit), 2-bridge knot, Knot invariant, Monodromy, Applied Mathematics, General Mathematics, Skein relation, Fibered knot, Automorphism, Knot theory, Mathematics

Published

2016

47. A skein action of the symmetric group on noncrossing partitions

Author

Brendon Rhoades

Subjects

Mathematics::Combinatorics, Algebra and Number Theory, Skein, Noncrossing partition, 010102 general mathematics, Skein relation, Bracket polynomial, 0102 computer and information sciences, Type (model theory), Partition of a set, 01 natural sciences, Combinatorics, 010201 computation theory & mathematics, Symmetric group, FOS: Mathematics, Mathematics - Combinatorics, Discrete Mathematics and Combinatorics, Combinatorics (math.CO), Isomorphism, 0101 mathematics, Mathematics

Abstract

We introduce and study a new action of the symmetric group $\mathfrak{S}_n$ on the vector space spanned by noncrossing partitions of $\{1, 2, \dots, n\}$ in which the adjacent transpositions $(i, i+1) \in \mathfrak{S}_n$ act on noncrossing partitions by means of skein relations. We characterize the isomorphism type of the resulting module and use it to obtain new representation theoretic proofs of cyclic sieving results due to Reiner-Stanton-White and Pechenik for the action of rotation on various classes of noncrossing partitions and the action of K-promotion on two-row rectangular increasing tableaux. Our skein relations generalize the Kauffman bracket (or Ptolemy relation) and can be used to resolve any set partition as a linear combination of noncrossing partitions in a $\mathfrak{S}_n$-equivariant way., Comment: 39 pages

Published

2016

48. Erratum to 'Some Limits of the Colored Jones Polynomials of the Figure-eight Knot'

Author

Hitoshi Murakami

Subjects

Combinatorics, Knot invariant, Applied Mathematics, General Mathematics, Quantum invariant, Skein relation, Jones polynomial, Figure-eight knot, Knot polynomial, Trefoil knot, Mathematics, Knot (mathematics)

Published

2016

49. Describing semigroups with defining relations of the form $$xy=yz$$ x y = y z and $$yx=zy$$ y x = z y and connections with knot theory

Author

Alexei Vernitski

Subjects

Discrete mathematics, Knot complement, Pure mathematics, Algebra and Number Theory, Mathematics::Operator Algebras, Quantum invariant, 010102 general mathematics, Skein relation, 0102 computer and information sciences, Tricolorability, Mathematics::Geometric Topology, 01 natural sciences, Knot theory, Knot invariant, 010201 computation theory & mathematics, Knot group, 0101 mathematics, Mathematics, Trefoil knot

Abstract

We introduce a knot semigroup as a cancellative semigroup whose defining relations are produced from crossings on a knot diagram in a way similar to the Wirtinger presentation of the knot group; to be more precise, a knot semigroup as we define it is closely related to such tools of knot theory as the twofold branched cyclic cover space of a knot and the involutory quandle of a knot. We describe knot semigroups of several standard classes of knot diagrams, including torus knots and torus links T(2, n) and twist knots. The description includes a solution of the word problem. To produce this description, we introduce alternating sum semigroups as certain naturally defined factor semigroups of free semigroups over cyclic groups. We formulate several conjectures for future research.

Published

2016

50. On the Combinatorics of Smoothing

Author

Micah Chrisman

Subjects

Statistics and Probability, Discrete mathematics, Connected component, Applied Mathematics, General Mathematics, 010102 general mathematics, Skein relation, Tricolorability, Mathematics::Geometric Topology, 01 natural sciences, Knot theory, Combinatorics, Knot (unit), Knot invariant, 0103 physical sciences, 010307 mathematical physics, Adjacency matrix, 0101 mathematics, Smoothing, Mathematics

Abstract

Many invariants of knots rely upon smoothing the knot at its crossings. To compute them, it is necessary to know how to count the number of connected components the knot diagram is broken into after the smoothing. In this paper, it is shown how to use a modification of a theorem of Zulli together with a modification of the spectral theory of graphs to approach such problems systematically. We give an application to counting subdiagrams of pretzel knots which have one component after oriented and unoriented smoothings.

Published

2016