A Nonlinear Plancherel Theorem with Applications to Global Well-Posedness for the Defocusing Davewy-Stewartson Equation and to the Inverse Boundary Value Problem of Calderon

Adrian I. Nachman, Idan Regev, Daniel I. Tataru

Published 2017-08-16Version 1

We prove a Plancherel theorem for a nonlinear Fourier transform in two dimensions arising in the Inverse-Scattering method for the defocusing Davey-Stewartson II equation. We then use it to prove global well-posedness and scattering in $L^2$ for defocusing DSII. This Plancherel theorem also implies global uniqueness in the inverse boundary value problem of Calder\'on in dimension $2$, for conductivities $\sigma>0$ with $\log \sigma \in \dot H^1$. The proof of the nonlinear Plancherel theorem includes new estimates on fractional integrals in Sobolev spaces, as well as a new result on $L^2$- boundedness of pseudo-differential equations with non-smooth symbols, valid in all dimensions.