Whitehead link: Difference between revisions
Importing Wikidata short description: "Two interlinked loops with five structural crossings" (Shortdesc helper) |
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| stick number= |
| stick number= |
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| unknotting number= 1 |
| unknotting number= 1 |
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| conway_notation=[212] |
| conway_notation= [212] |
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| ab_notation= 5{{sup sub|2|1}} |
| ab_notation= 5{{sup sub|2|1}} |
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| dowker notation= |
| dowker notation= |
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| thistlethwaite= L5a1 |
| thistlethwaite= L5a1 |
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| other= |
| other= |
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| alternating= alternating |
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| amphichiral= |
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| fibered= |
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| slice= |
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| tricolorable= |
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| last link= L4a1 |
| last link= L4a1 |
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| next link= L6a1 |
| next link= L6a1 |
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}} |
}} |
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{{multiple image |
{{multiple image |
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| total_width = 235 |
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| image1 = Whitehead-link.svg |
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| image1 = Whitehead-link.svg |
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Its [[Jones polynomial]] is |
Its [[Jones polynomial]] is |
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:<math>V(t)=t^{- |
:<math>V(t) = t^{-{3 \over 2}}\left(-1 + t - 2t^2 + t^3 - 2t^4 + t^5\right).</math> |
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This polynomial and <math>V(1/t)</math> are the two factors of the Jones polynomial of the [[L10a140 link]]. Notably, <math>V(1/t)</math> is the Jones polynomial for the mirror image of a link having Jones polynomial <math>V(t)</math>. |
This polynomial and <math>V(1/t)</math> are the two factors of the Jones polynomial of the [[L10a140 link]]. Notably, <math>V(1/t)</math> is the Jones polynomial for the mirror image of a link having Jones polynomial <math>V(t)</math>. |
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==Volume== |
==Volume== |
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The [[hyperbolic volume]] of the complement of the Whitehead link is {{math|4}} times [[Catalan's constant]], approximately 3.66. The Whitehead link complement is one of two two-cusped hyperbolic manifolds with the minimum possible volume, the other being the complement of the [[pretzel link]] with parameters {{math|( |
The [[hyperbolic volume]] of the complement of the Whitehead link is {{math|4}} times [[Catalan's constant]], approximately 3.66. The Whitehead link complement is one of two two-cusped hyperbolic manifolds with the minimum possible volume, the other being the complement of the [[pretzel link]] with parameters {{math|(−2, 3, 8)}}.<ref>{{citation |
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| last = Agol | first = Ian | authorlink = Ian Agol |
| last = Agol | first = Ian | authorlink = Ian Agol |
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| doi = 10.1090/S0002-9939-10-10364-5 |
| doi = 10.1090/S0002-9939-10-10364-5 |
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| title = The minimal volume orientable hyperbolic 2-cusped 3-manifolds |
| title = The minimal volume orientable hyperbolic 2-cusped 3-manifolds |
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| volume = 138 |
| volume = 138 |
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| year = 2010| arxiv = 0804.0043}}.</ref> |
| year = 2010| arxiv = 0804.0043 |
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}}.</ref> |
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Dehn filling on one component of the Whitehead link can produce the sibling manifold of the complement of the [[ |
Dehn filling on one component of the Whitehead link can produce the sibling manifold of the complement of the [[figure-eight knot (mathematics)|figure-eight knot]], and Dehn filling on both components can produce the [[Weeks manifold]], respectively one of the minimum-volume hyperbolic manifolds with one cusp and the minimum-volume hyperbolic manifold with no cusps. |
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==See also== |
==See also== |
Revision as of 17:37, 5 November 2021
Whitehead link | |
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Braid length | 5 |
Braid no. | 3 |
Crossing no. | 5 |
Hyperbolic volume | 3.663862377 |
Linking no. | 0 |
Unknotting no. | 1 |
Conway notation | [212] |
A–B notation | 52 1 |
Thistlethwaite | L5a1 |
Last / Next | L4a1 / L6a1 |
Other | |
alternating |
In knot theory, the Whitehead link, named for J. H. C. Whitehead, is one of the most basic links.
Whitehead spent much of the 1930s looking for a proof of the Poincaré conjecture. In 1934, the Whitehead link was used as part of his construction of the now-named Whitehead manifold, which refuted his previous purported proof of the conjecture.
Structure
The link is created with two projections of the unknot: one circular loop and one figure eight-shaped loop (i.e., a loop with a Reidemeister Type I move applied) intertwined such that they are inseparable and neither loses its form. Excluding the instance where the figure eight thread intersects itself, the Whitehead link has four crossings. Because each under-hand crossing has a paired upper-hand crossing, its linking number is 0. It is not isotopic to the unlink, but it is link homotopic to the unlink.
In braid theory notation, the link is written
Its Jones polynomial is
This polynomial and are the two factors of the Jones polynomial of the L10a140 link. Notably, is the Jones polynomial for the mirror image of a link having Jones polynomial .
Volume
The hyperbolic volume of the complement of the Whitehead link is 4 times Catalan's constant, approximately 3.66. The Whitehead link complement is one of two two-cusped hyperbolic manifolds with the minimum possible volume, the other being the complement of the pretzel link with parameters (−2, 3, 8).[1]
Dehn filling on one component of the Whitehead link can produce the sibling manifold of the complement of the figure-eight knot, and Dehn filling on both components can produce the Weeks manifold, respectively one of the minimum-volume hyperbolic manifolds with one cusp and the minimum-volume hyperbolic manifold with no cusps.
See also
References
- ^ Agol, Ian (2010), "The minimal volume orientable hyperbolic 2-cusped 3-manifolds", Proceedings of the American Mathematical Society, 138 (10): 3723–3732, arXiv:0804.0043, doi:10.1090/S0002-9939-10-10364-5, MR 2661571.