Arf invariant of a knot
In the mathematical field of knot theory, the Arf invariant of a knot, named after Cahit Arf, is a knot invariant obtained from a quadratic form associated to a Seifert surface. If F is a Seifert surface of a knot, then the homology group has a quadratic form whose value is the number of full twists mod 2 in a neighborhood of an embedded circle representing an element of the homology group. The Arf invariant of this quadratic form is the Arf invariant of the knot.
Definition by Seifert matrix
Let be a Seifert matrix of the knot, constructed from a set of curves on a Seifert surface of genus g which represent a basis for the first homology of the surface. This means that V is a matrix with the property that is a symplectic matrix. The Arf invariant of the knot is the residue ofSpecifically, if, is a symplectic basis for the intersection form on the Seifert surface, then
where lk is the link number and denotes the positive pushoff of a.
Definition by pass equivalence
This approach to the Arf invariant is due to Louis Kauffman.We define two knots to be pass equivalent if they are related by a finite sequence of pass-moves.
Every knot is pass-equivalent to either the unknot or the trefoil; these two knots are not pass-equivalent and additionally, the right- and left-handed trefoils are pass-equivalent.
Now we can define the Arf invariant of a knot to be 0 if it is pass-equivalent to the unknot, or 1 if it is pass-equivalent to the trefoil. This definition is equivalent to the one above.
Definition by partition function
Vaughan Jones showed that the Arf invariant can be obtained by taking the partition function of an Ising model on a knot diagram.Definition by Alexander polynomial
This approach to the Arf invariant is by Raymond Robertello. Letbe the Alexander polynomial of the knot. Then the Arf invariant is the residue of
modulo 2, where for n odd, and for n even.
Kunio Murasugi proved that the Arf invariant is zero if and only if.