Arf invariant (knot)

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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 H₁(F, Z/2Z) has a quadratic form whose value is the number of full twists mod 2 in a neighborhood of an imbedded circle representing an element of the homology group. The Arf invariant of this quadratic form is the Arf invariant of the knot.

Contents 1 Definition by Seifert matrix 2 Definition by pass equivalence 3 Definition by partition function 4 References

[edit] Definition by Seifert matrix

Let V = (v(i,j)) be a Seifert matrix of the knot, constructed from a Seifert surface of genus g so that V is a matrix. The Arf invariant of the knot is the residue of modulo 2.

[edit] 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, which are illustrated below: (no figure right now)

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.

[edit] Definition by partition function

Vaughan Jones showed that the Arf invariant can be obtained by taking the partition function of a signed planar graph associated to a knot diagram.

[edit] References

• Kauffman, Louis (1983). Formal knot theory. Mathematical notes, 30, Princeton University Press. ISBN 0-691-08336-3. 
• Kirby, Robion (1989). The topology of 4-manifolds. Lecture Notes in Mathematics, no. 1374, Springer-Verlag. ISBN 0-387-51148-2.