Calibrated Embeddings in the Special Lagrangian and Coassociative Cases
Abstract
Every closed, oriented, real analytic Riemannian 3-manifold can be isometrically embedded
as a special Lagrangian submanifold of a Calabi-Yau 3-fold, even as the real locus
of an antiholomorphic, isometric involution. Every closed, oriented, real analytic
Riemannian 4-manifold whose bundle of self-dual 2-forms is trivial can be isometrically
embedded as a coassociative submanifold in a G2-manifold, even as the fixed locus
of an anti-G2 involution. These results, when coupled with McLean's analysis of the
moduli spaces of such calibrated sub-manifolds, yield a plentiful supply of examples
of compact calibrated submanifolds with nontrivial deformation spaces.
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Robert Bryant
Phillip Griffiths Professor of Mathematics
My research concerns problems in the geometric theory of partial differential equations.
More specifically, I work on conservation laws for PDE, Finsler geometry, projective
geometry, and Riemannian geometry, including calibrations and the theory of holonomy.
Much of my work involves or develops techniques for studying systems of partial differential
equations that arise in geometric problems. Because of their built-in invariance
properties, these systems often have specia
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