The Energy-Critical Quantum Harmonic Oscillator

Abstract

We consider the energy critical nonlinear Schr\"odinger equation in dimensions d 3 with a harmonic oscillator potential V(x) = 12 |x|2. When the nonlinearity is defocusing, we prove global wellposedness for all initial data in the energy space , consisting of all functions u0 such that both ∇ u0 and x u0 belong to L2. This result extends a theorem of Killip-Visan-Zhang kvzquadraticpotentials, which treats the radial case. For the focusing problem, we obtain global wellposedness for all data satisfying an analogue of the usual size restriction in terms of the ground state W. The proof uses the concentration compactness variant of the induction on energy paradigm. In particular, we develop a linear profile decomposition adapted to the propagator [ it(12 - 12|x|2)] for bounded sequences in .