Hypocoercivity methods are applied to linear kinetic equations with mass
conservation and without confinement in order to prove that the solutions have an
algebraic decay rate in the long-time range, which the same as the rate of the
heat equation. Two alternative approaches are developed: an analysis based
on decoupled Fourier modes and a direct approach where, instead of the
Poincaré inequality for the Dirichlet form, Nash’s inequality is employed.
The first approach is also used to provide a simple proof of exponential
decay to equilibrium on the flat torus. The results are obtained on a space
with exponential weights and then extended to larger function spaces by a
factorization method. The optimality of the rates is discussed. Algebraic rates of
decay on the whole space are improved when the initial datum has moment
cancellations.
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