Global well-posedness and scattering of the defocusing energy-critical inhomogeneous nonlinear Schr\"odinger equation with radial data

Abstract

We consider the defocusing energy-critical inhomogeneous nonlinear Schr\"odinger equation (INLS) iut + u = |x|-b|u|ku in R × Rn where n ≥ 3, 0<b<(2, n/2), and k=(4-2b)/(n-2). We show that for every spherically symmetric initial data φ ∈ H1(Rn), or preferably H1(Rn), the solution is globally well-posed and scatters for every such n and b except for n=4 with 1≤ b<2 and n=5 with 1/2≤ b≤ 5/4. We mainly apply the arguments of Tao (2005), but inspired by the work of Aloui and Tayachi (2021), we utilize Lorentz spaces to define spacetime norms. This method is distinct from the widespread concentration compactness principle and establishes a quantitative bound for the solution's spacetime norm. The bound has an exponential form C(CE[φ]C) in terms of the energy E[φ], similar to Tao's work.