Weak global solvability of a doubly degenerate parabolic-elliptic nutrient taxis system
Abstract: This work studies the following doubly degenerate parabolic-elliptic nutrient taxis system $$ \begin{cases} u_t = (uvu_x)x -(u2 vv_x)_x + uv, \[1.5 ex] \hspace{0.2 cm}0 = v{xx} - uv + f(x,t), \end{cases} $$ in a bounded interval $Ω\subset \mathbb{R}$, under no-flux boundary conditions and nonnegative initial value $u(x,0) = u_0(x) \geq 0$, where $f(x,t) \geq 0$ is known external supply of the nutrient. It is shown that for any nonnegative $u_0 \in W{1,\infty}(Ω)$ and $f \in C1\big(\barΩ \times [0,\infty) \big)$, $f \not \equiv 0$, a global weak solution of the problem can be constructed by means of a regularization approach. The core of the analysis lies on a Harnack-type inequality for the second that allows us to overcome the lack of uniform coercivity. Together with time regularity properties, we obtain relative compactness through a combination of the Arzelà-Ascoli theorem and the Aubin-Lions lemma.
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