Abstract
A model consisting of a kinetic equation for \run-and-tumble" biased bacteria motion,
coupled with two reaction-diusion equations for chemical signals, is studied. It displays time-
asymptotic propagation at constant velocity, i.e., aggregated travelling (exponential) layers. To
capture them for various parameters, a well-balanced setup is based on both \Case's elementary
solutions" and L-spline reconstruction. Far from the diusive regime, waves travelling at dierent
velocities (bistability) are proved to coexist. Numerics suggest that they are locally asymptotically
stable, so that the resulting bifurcation diagram shows counterintuitive features.
Anno
2017
Autori IAC
Tipo pubblicazione
Altri Autori
Vincent Calvez; Laurent Gosse; Monika Twarogowska
Editore
Society for Industrial and Applied Mathematics,
Rivista
SIAM journal on applied mathematics (Print)
