A characterization of probability measure with finite moment and an application to the Boltzmann equation (1512.00629v1)

Abstract: We characterize probability measure with finite moment of any order in terms of the symmetric difference operators of their Fourier transforms. By using our new characterization, we prove the continuity $f(t,v)\in C((0, \infty),L^1_{2k-2 +\alpha})$, where $f(t, v)$ stands for the density of unique measure-valued solution $(F_t)_{t\ge0}$ of the Cauchy problem for the homogeneous non-cutoff Boltzmann equation, with Maxwellian molecules, corresponding to a probability measure initial datum $F_0$ satisfying [ \int |v|^{2k-2+\alpha} dF_0(v) < \infty, 0\leq \alpha < 2,k= 2, 3, 4,\cdots ] provided that $F_0$ is not a single Dirac mass.