The Boltzmann equation, Besov spaces, and optimal time decay rates in the whole space

Abstract

We prove that k-th order derivatives of perturbative classical solutions to the hard and soft potential Boltzmann equation (without the angular cut-off assumption) in the whole space, Rnx with n 3, converge in large-time to the global Maxwellian with the optimal decay rate of O(t-1/2(k++n2-nr)) in the Lrx(L2v)-norm for any 2≤ r≤ ∞. These results hold for any ∈ [0, n/2] as long as initially \| f0|B-,∞2 L2v < ∞. In the hard potential case, we prove faster decay results in the sense that if |P f0\|B-,∞2 L2v < ∞ and |(I - P) f0|B-+1,∞2 L2v < ∞ for ∈ (n/2, (n+2)/2] then the solution decays to zero in L2v(L2x) with the optimal large time decay rate of O(t-1/2).