Special Lagrangian 3-folds and integrable systems

Details Special Lagrangian 3-folds and integrable systems Special Lagrangian 3-folds and integrable systems

2001-01-30

arxiv.org/abs/math/0101249v2

pp. 189-233 in Advanced Studies in Pure Math. 51, "Surveys on Geometry and Integrable Systems", Mathematical Society of Japan,

Mathematics

Differential Geometry

36 pages, LaTeX. (v2) substantially rewritten, references updated

Scientific paper

This is the sixth in a series of papers constructing examples of special Lagrangian m-folds in C^m. We present a construction of special Lagrangian cones in C^3 involving two commuting o.d.e.s, motivated by the first two papers of the series. Then we generalize it to a construction of non-conical special Lagrangian 3-folds in C^3 involving three commuting o.d.e.s. Now special Lagrangian cones in C^3 are linked to the theory of harmonic maps and integrable systems. Harmonic maps from a Riemann surface into complex projective space CP^n are an integrable system, and can be studied and classified using loop group techniques. If N is a special Lagrangian cone in C^3, then N is the cone on the image of a conformal harmonic map \psi : S --> S^5 for some Riemann surface S, and the projection of \psi to CP^2 is also conformal harmonic. Our examples of special Lagrangian cones in C^3 yield conformal harmonic maps \psi : R^2 --> CP^2. We work through the integrable systems theory for these examples, showing that they are superconformal of finite type, and calculating their harmonic sequences, Toda and Tzitzeica solutions, algebra of polynomial Killing fields and spectral curves. We also study the double periodicity conditions for \psi, and so find families of superconformal tori in CP^2. We finish by asking whether our more general construction of special Lagrangian 3-folds can also be derived from a higher-dimensional integrable system, and whether the special Lagrangian equations themselves are in some sense integrable.

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