L10a140 link
| L10a140 | |
|---|---|
 |
|
| Braid length | 10 |
| Braid no. | 3 |
| Crossing no. | 10 |
| Hyperbolic volume | 12.27627758 |
| Conway notation | [.3:30] |
| Thistlethwaite | L10a140 |
| Other | |
| alternating | |
In the mathematical theory of knots, L10a140 is the name in the Thistlewaite link table of a link of three loops, which has ten crossings between the loops when presented in its simplest visual form. It is of interest because it is presumably the simplest link which possesses the Brunnian property — a link of connected components that, when one component is removed, becomes entirely unconnected — other than the six-crossing Borromean rings.
In other words, no two loops are directly linked with each other, but all three are collectively interlinked, so removing any loop frees the other two. In the image in the infobox at right, the red loop is not interlinked with either the blue or the yellow loops, and if the red loop is removed, then the blue and yellow loops can also be disentangled from each other without cutting either one.
According to work by Slavik V. Jablan, the L10a140 link can be seen as the second in an infinite series of Brunnian links beginning with the Borromean rings. So if the blue and yellow loops have only one twist along each side, the resulting configuration is the Borromean rings; if the blue and yellow loops have three twists along each side, the resulting configuration is the L10a140 link; if the blue and yellow loops have five twists along each side, the resulting configuration is a three-loop link with 14 overall crossings, etc. etc.
The multivariable Alexander polynomial for the L10a140 link is
the Conway polynomial is
the Jones polynomial factors nicely as
where (Notice that is essentially the Jones polynomial for the Whitehead link.)
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