In spatially restricted media, interactions between particles and local fluctuations of density can lead to important deviations of the dynamics from the unconfined, deterministic picture. In this context, we investigated how molecular crowding can affect the emergence of chaos in small reactive systems. We developed to this end an amended version of the Willamowski–Rössler model, where we account for the impenetrability of the reactive species. We analyzed the deterministic kinetics of this model and studied it with spatially-extended stochastic simulations in which the mobility of particles is included explicitly. We show that homogeneous fluctuations can lead to a destruction of chaos through a fluctuation-induced collision between chaot...
The perplexing and intriguing world of biological systems has inaugurated a new research field in st...
The formation of out-of-equilibrium patterns is a characteristic feature of spatially-extended, biod...
Understanding how fluctuations continuously propagate across spatial scales is fundamental for our u...
In spatially restricted media, interactions between particles and local fluctuations of density can ...
Systems chemistry aims at studying and developing "smart" materials displaying reactivity to externa...
The formation of out-of-equilibrium patterns is a characteristic feature of spatially extended, biod...
International audienceLiving active matter systems such as bacterial colonies, schools of fish and h...
The article deals with the propagation of chaos for a system of interacting particles. Under suitabl...
Understanding self-organization is one of the key tasks for controlling and manipulating the structu...
In this thesis we show how reactive processes can be affected by the presence of different types of ...
We study the spatial patterns formed by a system of interacting particles where the mobility of any ...
We study the spatial patterns formed by a system of interacting particles where the mobility of any ...
Complex dynamics in systems with many degrees of freedom are investigated with two classes of comput...
Collective behaviour is a phenomenon that often occurs in systems of many interacting individuals. C...
Minimal models of active Brownian colloids consisting of self-propelled spherical par- ticles with p...
The perplexing and intriguing world of biological systems has inaugurated a new research field in st...
The formation of out-of-equilibrium patterns is a characteristic feature of spatially-extended, biod...
Understanding how fluctuations continuously propagate across spatial scales is fundamental for our u...
In spatially restricted media, interactions between particles and local fluctuations of density can ...
Systems chemistry aims at studying and developing "smart" materials displaying reactivity to externa...
The formation of out-of-equilibrium patterns is a characteristic feature of spatially extended, biod...
International audienceLiving active matter systems such as bacterial colonies, schools of fish and h...
The article deals with the propagation of chaos for a system of interacting particles. Under suitabl...
Understanding self-organization is one of the key tasks for controlling and manipulating the structu...
In this thesis we show how reactive processes can be affected by the presence of different types of ...
We study the spatial patterns formed by a system of interacting particles where the mobility of any ...
We study the spatial patterns formed by a system of interacting particles where the mobility of any ...
Complex dynamics in systems with many degrees of freedom are investigated with two classes of comput...
Collective behaviour is a phenomenon that often occurs in systems of many interacting individuals. C...
Minimal models of active Brownian colloids consisting of self-propelled spherical par- ticles with p...
The perplexing and intriguing world of biological systems has inaugurated a new research field in st...
The formation of out-of-equilibrium patterns is a characteristic feature of spatially-extended, biod...
Understanding how fluctuations continuously propagate across spatial scales is fundamental for our u...