Knudsen boundary layer equations for full ranges of cutoff collision kernels: Maxwell reflection boundary with all accommodation coefficients in [0,1]

Abstract

In this paper, we prove the existence and uniqueness of the Knudsen layer equation imposed on Maxwell reflection boundary condition with full ranges of cutoff collision kernels and accommodation coefficients (i.e., - 3 < γ ≤ 1 and 0 ≤ α* ≤ 1, respectively) in the L∞x,v framework. Moreover, the solution enjoys the exponential decay \- c x23 - γ - c |v|2 \ for some c > 0. In order to study the general angular cutoff collision kernel -3 < γ ≤ 1, we should introduce a (x,v)-mixed weight σ. The biggest difficulty in this paper is the nondissipative boundary condition, hence, the boundary temperature and velocity (Tw, uw) on \ x = 0 \ and (T, u) on \ x = + ∞ \ do not guarantee the nonnegativity of the L2 boundary energy. We also do not assume that (Tw, uw) and (T, u) are very closed to each other. We first derive the Nondissipative boundary lemma to pull the boundary energy to the interior weighted L2 norms with higher power of x-polynomial weights. Then a so-called spatial-velocity indices iteration approach is developed to shift the higher power x-polynomial weights to |v|-polynomial weights. Finally, we construct an interleaved iteration process such that the boundary energy is successfully dominated.

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