A restricted 2-plane transform related to Fourier Restriction for surfaces of codimension 2

Abstract

We draw a connection between the affine invariant surface measures constructed by P. Gressman and the boundedness of a certain geometric averaging operator associated to surfaces of codimension 2 and related to the Fourier Restriction Problem for such surfaces. For a surface given by (, Q1(), Q2()), with Q1,Q2 quadratic forms on Rd, the particular operator in question is the 2-plane transform restricted to directions normal to the surface, that is \[ Tf(x,) := |s|,|t| ≤ 1 f(x - s ∇ Q1() - t ∇ Q2(), s, t)\,ds\,dt, \] where x, ∈ Rd. We show that when the surface is well-curved in the sense of Gressman (that is, the associated affine invariant surface measure does not vanish) the operator satisfies sharp Lp Lq inequalities for p,q up to the critical point. We also show that the well-curvedness assumption is necessary to obtain the full range of estimates. The proof relies on two main ingredients: a characterisation of well-curvedness in terms of properties of the polynomial (s ∇2 Q1 + t ∇2 Q2), obtained with Geometric Invariant Theory techniques, and Christ's Method of Refinements. With the latter, matters are reduced to a sublevel set estimate, which is proven by a linear programming argument.