PDE Seminar: abstract

Abstract

We study the long time behavior, as $t \to \infty$ , of solutions of

\begin{array}{l} u_{t} & = u_{x x} + f (u), & x > 0, t > 0, \\ u (0, t) & = b u_{x} (0, t), & t > 0, \\ u (x, 0) & = u_{0} (x) \geq 0, & x \geq 0, \end{array}

where $b \geq 0$ and $f$ is an unbalanced bistable nonlinearity. By investigating families of initial data of the type ${σ ϕ}_{σ > 0}$ , where $ϕ$ belongs to an appropriate class of nonnegative compactly supported functions, we exhibit the sharp threshold between vanishing and spreading. More specifically, there exists some value $σ^{*}$ such that the solution converges uniformly to 0 for any $0 < σ < σ^{*}$ , and locally uniformly to a positive stationary state for any $σ > σ^{*}$ . In the threshold case $σ = σ^{*}$ , the profile of the solution approaches the symmetrically decreasing ground state with some shift, which may be either finite or infinite. In the latter case, the shift evolves as $C ln t$ where $C$ is a positive constant we compute explicitly, so that the solution is traveling with a pulse-like shape albeit with an asymptotically zero speed. Depending on $b$ , but also in some cases on the choice of the initial datum, we prove that one or both of the situations may happen.

Long time behavior of solutions of a reaction–diffusion equation on unbounded intervals with Robin boundary conditions

Abstract