Isotropic submanifolds of TSn and their focal sets

Abstract

Families of oriented lines in Rn+1 are studied via their identification with submanifolds of TSn. In particular, families of oriented lines which are orthogonal to submanifolds in Rn+1 are shown to characterise those which are isotropic with respect to the canonical sympleptic structure on TSn. Families of lines that are tangent to a k-dimensional submanifold of Rn+1 are then studied. For such families, isotropy is shown to be equivalent to the generating vector field being geodesic and hypersurface-orthogonal on the submanifold. The focal set in Rn+1 of a family of lines is introduced, extending the classical definition for families normal to hypersurfaces, to general families of lines of arbitrary codimension. A formula is derived that expresses certain sectional curvatures of the focal set in terms of the signed distances between corresponding focal points. We then solve an inverse problem for the focal sets of hypersurfaces and show certain sectional and Ricci curvatures of the focal set are determined by the differences between the hypersurface's radii of curvature. This generalises a Theorem of Bianchi from 1874 - namely that surfaces in R3 of constant astigmatism have pseudo-spherical focal sets.