Local-in-time strong solutions of the homogeneous Landau-Coulomb equation with Lp initial datum

Abstract

We consider the homogeneous Landau equation with Coulomb potential and general initial data fin ∈ Lp, where p is arbitrarily close to 3/2. We show the local-in-time existence and uniqueness of smooth solutions for such initial data. The constraint p > 3/2 has appeared in several related works and appears to be the minimal integrability assumption achievable with current techniques. We adapt recent ODE methods and conditional regularity results appearing in [arXiv:2303.02281] to deduce new short time Lp L∞ smoothing estimates. These estimates enable us to construct local-in-time smooth solutions for large Lp initial data, and allow us to show directly conditional regularity results for solutions verifying unweighted Prodi-Serrin type conditions. As a consequence, we obtain additional stability and uniqueness results for the solutions we construct.