A loop group method for Demoulin surfaces in the 3-dimensional real projective space

Abstract

For a surface in the 3-dimensional real projective space, we define a Gauss map, which is a quadric in R4 and called the first-order Gauss map. It will be shown that the surface is a Demoulin surface if and only if the first-order Gauss map is conformal, and the surface is a projective minimal coincidence surface or a Demoulin surface if and only if the first-order Gauss map is harmonic. Moreover for a Demoulin surface, it will be shown that the first-order Gauss map can be obtained by the natural projection of the Lorentz primitive map into a 6-symmetric space. We also characterize Demoulin surfaces via a family of flat connections on the trivial bundle × over a simply connected domain D in the Euclidean 2-plane.