Knots, minimal surfaces and J-holomorphic curves

Abstract

Let K be a knot in the 3-sphere, viewed as the ideal boundary of hyperbolic 4-space H4. We prove that the number of minimal discs in H4 with ideal boundary K is a knot invariant. I.e.\ the number is finite and doesn't change under isotopies of K. In fact this gives a family of knot invariants, indexed by an integer describing the extrinsic topology of how the disc sits in H4. These invariants can be seen as Gromov--Witten invariants counting J-holomorphic discs in the twistor space Z of H4. Whilst Gromov--Witten theory suggests the general scheme for defining the invariants, there are substantial differences in how this must be carried out in our situation. These are due to the fact that the geometry of both H4 and Z becomes singular at infinity, and so the J-holomorphic curve equation is degenerate, rather than elliptic, at the boundary. This means that both the Fredholm and compactness arguments involve completely new features.

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