Torus knot
of type 
A curve in 
that in cylindrical coordinates 
is given by the equations
 |
where 
. Here 
and 
are coprime natural numbers. The torus knot lies on the surface of the unknotted torus 
, intersecting the meridians of the torus at 
points and the parallels at 
points. The torus knots of types 
and 
are trivial. The simplest non-trivial torus knot is the trefoil (Fig. a), which is of type 
. The group of the torus knot of type 
has a presentation 
: 
, and the Alexander polynomial is given by
 |
All torus knots are Neuwirth knots (cf. Neuwirth knot). The genus of a torus knot is 
.
A second construction of a torus knot uses the singularity at the origin of the algebraic hypersurface
 |
If 
and 
are coprime, then the intersection of 
with a sufficiently small sphere 
is a knot in 
equivalent to the torus knot of type 
. In the case when 
and 
are not coprime, this intersection also lies on an unknotted torus 
, but consists of several components. The link so obtained is called the torus link of type 
(cf. Fig. b, where 
, 
).
Figure: t093360a
Figure: t093360b
References
| [1] | R.H. Crowell, R.H. Fox, "Introduction to knot theory" , Ginn (1963) |
| [2] | J. Milnor, "Singular points of complex hypersurfaces" , Princeton Univ. Press (1968) |
Comments
See also Knot theory.
References
| [a1] | D. Rolfsen, "Knots and links" , Publish or Perish (1976) |
Torus knot. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Torus_knot&oldid=49001