Brunnian link: Difference between revisions
(added Kanenobu reference) |
ChiolOorro (talk | contribs) (cocnale) |
||
| Line 1: | Line 1: | ||
racmonlicboc |
|||
[[Image:Brunnian.gif|right|200px|thumb|This four-component link is a Brunnian link.]] |
[[Image:Brunnian.gif|right|200px|thumb|This four-component link is a Brunnian link.]] |
||
A '''Brunnian link''' is a nontrivial link which becomes trivial if any component is removed. In other words, cutting any loop frees all the other loops (so that there is no [[L2a1|Hopf link]] between any two loops). |
A '''Brunnian link''' is a nontrivial link which becomes trivial if any component is removed. In other words, cutting any loop frees all the other loops (so that there is no [[L2a1|Hopf link]] between any two loops). |
||
The name Brunnian is after Hermann Brunn, whose 1892 article '' |
The name Brunnian is after Hermann Brunn, whose 1892 article ''Ãber Verkettung'' included examples of such links. |
||
The best-known and simplest possible Brunnian link is the [[L6a4|Borromean rings]], a link of three unknots. (This is also the only Brunnian link contained in tables which don't include links with 12 or more crossings.) However for every number three or above, there are an infinite number of links with the Brunnian property containing that number of loops. Here are some relatively simple three-component Brunnian links which are not the same as the Borromean rings: |
The best-known and simplest possible Brunnian link is the [[L6a4|Borromean rings]], a link of three unknots. (This is also the only Brunnian link contained in tables which don't include links with 12 or more crossings.) However for every number three or above, there are an infinite number of links with the Brunnian property containing that number of loops. Here are some relatively simple three-component Brunnian links which are not the same as the Borromean rings: |
||
Revision as of 22:48, 16 December 2008
racmonlicboc
A Brunnian link is a nontrivial link which becomes trivial if any component is removed. In other words, cutting any loop frees all the other loops (so that there is no Hopf link between any two loops).
The name Brunnian is after Hermann Brunn, whose 1892 article Ãber Verkettung included examples of such links.
The best-known and simplest possible Brunnian link is the Borromean rings, a link of three unknots. (This is also the only Brunnian link contained in tables which don't include links with 12 or more crossings.) However for every number three or above, there are an infinite number of links with the Brunnian property containing that number of loops. Here are some relatively simple three-component Brunnian links which are not the same as the Borromean rings:
12-crossing link.
18-crossing link.
T. Kanenobu has proven there exist hyperbolic Brunnian links with arbitrarily many components.
See also
T.Kanenobu, Hyperbolic links with Brunnian properties. J. Math. Soc. Japan. Vol 38 No. 2, (1986) 295--308.
