Analyticity and Existence of the Keller–Segel–Navier–Stokes Equations in Critical Besov Spaces

Abstract

Abstract This paper deals with the Cauchy problem to the Keller–Segel model coupled with the incompressible 3-D Navier–Stokes equations. Based on so-called Gevrey regularity estimates, which are motivated by the works of Foias and Temam [20], we prove that the solutions are analytic for a small interval of time with values in a Gevrey class of functions. As a consequence of Gevrey estimates, we particularly imply higher-order derivatives of solutions in Besov and Lebesgue spaces. Moreover, we prove that the existence of a positive constant C ~ {\tilde{C}} such that the initial data ( u 0 , n 0 , c 0 ) := ( u 0 h , u 0 3 , n 0 , c 0 ) {(u_{0},n_{0},c_{0}):=(u_{0}^{h},u_{0}^{3},n_{0},c_{0})} satisfy C ~ ⁢ ( ∥ ( n 0 , c 0 ) ∥ B ˙ q , 1 - 2 + 3 / q ⁢ ( ℝ 3 ) × B ˙ q , 1 3 / q ⁢ ( ℝ 3 ) + ∥ u 0 h ∥ B ˙ p , 1 - 1 + 3 / p ⁢ ( ℝ 3 ) + ∥ u 0 h ∥ B ˙ p , 1 - 1 + 3 / p ⁢ ( ℝ 3 ) α ⁢ ∥ u 0 3 ∥ B ˙ p , 1 - 1 + 3 / p ⁢ ( ℝ 3 ) 1 - α ) ≤ 1 \tilde{C}\bigl{(}\lVert(n_{0},c_{0})\rVert_{\dot{B}^{-2+3/q}_{q,1}(\mathbb{R}^% {3})\times\dot{B}^{3/q}_{q,1}(\mathbb{R}^{3})}+\lVert u_{0}^{h}\rVert_{\dot{B}% ^{-1+3/p}_{p,1}(\mathbb{R}^{3})}+\lVert u_{0}^{h}\rVert_{\dot{B}^{-1+3/p}_{p,1% }(\mathbb{R}^{3})}^{\alpha}\lVert u_{0}^{3}\rVert_{\dot{B}^{-1+3/p}_{p,1}(% \mathbb{R}^{3})}^{1-\alpha}\bigr{)}\leq 1 for certain conditions on p , q {p,q} and α implies the global existence of solutions with large initial vertical velocity component.