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Difference between revisions of "Jones unknotting conjecture"

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The conjecture has been confirmed for several families of knots, including alternating and adequate knots, knots up to $18$ crossings and $2$-algebraic knots (cf. [[Knot theory]]) up to $21$ crossings [[#References|[a5]]], [[#References|[a7]]]. Recently (2001), S. Yamada announced that the conjecture holds for knots with up to $20$ crossings. The analogous conjecture for links does not hold, as M.B. Thistlethwaite found a $15$-crossing link whose Jones polynomial coincides with a trivial link of two components, cf. Fig.a1. This and similar examples constructed since are $2$-satellites on a Hopf link [[#References|[a6]]], [[#References|[a1]]].
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The conjecture has been confirmed for several families of knots, including alternating and adequate knots, knots up to $18$ crossings and $2$-algebraic knots (cf. [[Knot theory]]) up to $21$ crossings [[#References|[a5]]], [[#References|[a7]]]. In 2001, S. Yamada announced that the conjecture holds for knots with up to $20$ crossings. The analogous conjecture for links does not hold, as M.B. Thistlethwaite found a $15$-crossing link whose Jones polynomial coincides with a trivial link of two components, cf. Fig.a1. This and similar examples constructed since are $2$-satellites on a Hopf link [[#References|[a6]]], [[#References|[a1]]].
  
 
L.H. Kauffman showed that there are non-trivial virtual knots with Jones polynomial equal to $1$, [[#References|[a4]]].
 
L.H. Kauffman showed that there are non-trivial virtual knots with Jones polynomial equal to $1$, [[#References|[a4]]].
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====References====
 
====References====
 
<table>
 
<table>
<TR><TD valign="top">[a1]</TD> <TD valign="top">  S. Eliahou,   L.H. Kauffman,   M. Thistlethwaite,   "Infinite families of links with trivial Jones polynomial"  ''preprint''  (2001)</TD></TR>
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<TR><TD valign="top">[a1]</TD> <TD valign="top">  S. Eliahou, L.H. Kauffman, M. Thistlethwaite, "Infinite families of links with trivial Jones polynomial"  ''preprint''  (2001)</TD></TR>
<TR><TD valign="top">[a2]</TD> <TD valign="top">  V.F.R. Jones,   "Hecke algebra representations of braid groups and link polynomials"  ''Ann. of Math.'' , '''126''' :  2  (1987)  pp. 335–388</TD></TR>
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<TR><TD valign="top">[a2]</TD> <TD valign="top">  V.F.R. Jones, "Hecke algebra representations of braid groups and link polynomials"  ''Ann. of Math.'' , '''126''' :  2  (1987)  pp. 335–388</TD></TR>
<TR><TD valign="top">[a3]</TD> <TD valign="top">  V.F.R. Jones,   "Ten problems" , ''Mathematics: Frontiers and Perspectives'' , Amer. Math. Soc.  (2000)  pp. 79–91</TD></TR>
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<TR><TD valign="top">[a3]</TD> <TD valign="top">  V.F.R. Jones, "Ten problems" , ''Mathematics: Frontiers and Perspectives'' , Amer. Math. Soc.  (2000)  pp. 79–91</TD></TR>
<TR><TD valign="top">[a4]</TD> <TD valign="top">  L.H. Kauffman,   "A survey of virtual knot theory" , ''Knots in Hellas '98'' , ''Ser. on Knots and Everything'' , '''24'''  (2000)  pp. 143–202</TD></TR>
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<TR><TD valign="top">[a4]</TD> <TD valign="top">  L.H. Kauffman, "A survey of virtual knot theory" , ''Knots in Hellas '98'' , ''Ser. on Knots and Everything'' , '''24'''  (2000)  pp. 143–202</TD></TR>
 
<TR><TD valign="top">[a5]</TD> <TD valign="top">  W.B.R. Lickorish,  M.B. Thistlethwaite,  "Some links with non-trivial polynomials and their crossing-numbers"  ''Comment. Math. Helv.'' , '''63'''  (1988)  pp. 527–539</TD></TR>
 
<TR><TD valign="top">[a5]</TD> <TD valign="top">  W.B.R. Lickorish,  M.B. Thistlethwaite,  "Some links with non-trivial polynomials and their crossing-numbers"  ''Comment. Math. Helv.'' , '''63'''  (1988)  pp. 527–539</TD></TR>
 
<TR><TD valign="top">[a6]</TD> <TD valign="top">  M.B. Thistlethwaite,  "Links with trivial Jones polynomial"  ''J. Knot Th. Ramifications'' , '''10''' :  4  (2001)  pp. 641–643</TD></TR>
 
<TR><TD valign="top">[a6]</TD> <TD valign="top">  M.B. Thistlethwaite,  "Links with trivial Jones polynomial"  ''J. Knot Th. Ramifications'' , '''10''' :  4  (2001)  pp. 641–643</TD></TR>
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Latest revision as of 16:33, 29 March 2024

Every non-trivial knot has a non-trivial Jones polynomial.

Figure: j130050a

The conjecture has been confirmed for several families of knots, including alternating and adequate knots, knots up to $18$ crossings and $2$-algebraic knots (cf. Knot theory) up to $21$ crossings [a5], [a7]. In 2001, S. Yamada announced that the conjecture holds for knots with up to $20$ crossings. The analogous conjecture for links does not hold, as M.B. Thistlethwaite found a $15$-crossing link whose Jones polynomial coincides with a trivial link of two components, cf. Fig.a1. This and similar examples constructed since are $2$-satellites on a Hopf link [a6], [a1].

L.H. Kauffman showed that there are non-trivial virtual knots with Jones polynomial equal to $1$, [a4].

It is still an open problem (as of 2001) whether a simple (non-satellite) link can have a Jones polynomial of an unlink.

References

[a1] S. Eliahou, L.H. Kauffman, M. Thistlethwaite, "Infinite families of links with trivial Jones polynomial" preprint (2001)
[a2] V.F.R. Jones, "Hecke algebra representations of braid groups and link polynomials" Ann. of Math. , 126 : 2 (1987) pp. 335–388
[a3] V.F.R. Jones, "Ten problems" , Mathematics: Frontiers and Perspectives , Amer. Math. Soc. (2000) pp. 79–91
[a4] L.H. Kauffman, "A survey of virtual knot theory" , Knots in Hellas '98 , Ser. on Knots and Everything , 24 (2000) pp. 143–202
[a5] W.B.R. Lickorish, M.B. Thistlethwaite, "Some links with non-trivial polynomials and their crossing-numbers" Comment. Math. Helv. , 63 (1988) pp. 527–539
[a6] M.B. Thistlethwaite, "Links with trivial Jones polynomial" J. Knot Th. Ramifications , 10 : 4 (2001) pp. 641–643
[a7] S. Yamada, "How to find knots with unit Jones polynomials" , Knot Theory, Proc. Conf. Dedicated to Professor Kunio Murasugi for his 70th Birthday (Toronto, July 13th-17th 1999) (2000) pp. 355–361


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How to Cite This Entry:
Jones unknotting conjecture. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Jones_unknotting_conjecture&oldid=55687
This article was adapted from an original article by Jozef Przytycki (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article