On well-posedness and blow-up in the generalized Hartree equation

Abstract

We study the generalized Hartree equation, which is a nonlinear Schr\"odinger-type equation with a nonlocal potential iut + u + (|x|-b |u|p)|u|p-2u=0, x ∈ RN.We establish the local well-posedness at the non-conserved critical regularity Hsc for sc ≥ 0, which also includes the energy-supercritical regime sc>1 (thus, complementing the work in [3], where the authors obtained the H1 well-posedness in the intercritical regime together with classification of solutions under the mass-energy threshold). We next extend the local theory to global: for small data we obtain global in time existence and for initial data with positive energy and certain size of variance we show the finite time blow-up (blow-up criterion). Both of these results hold regardless of the criticality of the equation. In the intercritical setting the criterion produces blow-up solutions with the initial values above the mass-energy threshold. We conclude with examples showing currently known thresholds for global vs. finite time behavior.