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Compact special Legendrian surfaces in $S^5$

Differential Geometry 2007-05-23 v4 Analysis of PDEs

Abstract

A surface ΣS5C3\Sigma \subset S^5 \subset \mathbb{C}^3 is called \emph{special Legendrian} if the cone 0×ΣC30 \times \Sigma \subset \mathbb{C}^3 is special Lagrangian. The purpose of this paper is to propose a general method toward constructing compact special Legendrian surfaces of high genus. It is proved \emph{there exists a compact, orientable, Hamiltonian stationary Lagrangian surface of genus 1+k(k3)21+\frac{k(k-3)}{2} in CP2 \mathbb{C}P^2 for each integer k3 k \geq 3, which is a smooth branched surface except at most finitely many conical singularities.} If this surface is smooth, it is minimal and the Legendrian lift of the surface is the desired compact special Legendrian surface. We first establish the existence of a minimizer of area among Lagrangian disks in a relative homotopy class of a K\"ahler-Einstein surface without Lagrangian homotopy classes with respect to a configuration Γ \Gamma that consists of the fixed point loci of K\"ahler involutions. Γ \Gamma in addition must satisfy certain null relative homotopy conditions and angle criteria. The fundamental domain thus obtained is smooth along the boundary, and has finitely many interior singular points. We then apply successive \emph{reflection} of this fundamental domain along its boundary to obtain a complete or compact Lagrangian surface.

Keywords

Cite

@article{arxiv.math/0211439,
  title  = {Compact special Legendrian surfaces in $S^5$},
  author = {Sung Ho Wang},
  journal= {arXiv preprint arXiv:math/0211439},
  year   = {2007}
}

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42 pages