Hydrodynamic and hydrostatic limit for a generalized contact process with mixed boundary conditions
Résumé
We consider an interacting particle system which models the sterile insect technique. It is the superposition of a generalized contact process with exchanges of particles on a finite cylinder with open boundaries (see Kuoch et al., 2017). We show that when the system is in contact with reservoirs at different slowdown rates, the hydrodynamic limit is a set of coupled non linear reaction-diffusion equations with mixed boundary conditions. We also prove the hydrostatic limit when the macroscopic equations exhibit a unique attractor.
Mots clés
- Hydrostatic limit
- Random reservoirs
- System of reaction-diffusion equations
- Generalized contact process
- Stirring process
- Mixed boundary conditions
- Hydrodynamic limit Hydrostatic limit Random reservoirs System of reaction-diffusion equations Generalized contact process Stirring process Mixed boundary conditions
- Hydrodynamic limit
Domaines
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