Add to ORKG\u3cp\u3eParticle diffusion is modified by the presence of barriers. In cells macromolecules, behaving as obstacles, slow down the dynamics so that the meansquare displacement of molecules grows with time as a power law with exponent smaller than one. In different situations, such as grain and pedestrian dynamics, it can happen that an obstacle can accelerate the dynamics. In the framework of very basic models, we study the time needed by particles to cross a strip for different bulk dynamics and discuss the effect of obstacles. We find that in some regimes such a residence time is not monotonic with respect to the size and the position of the obstacles. We can then conclude that, even in very elementary systems where no interaction among p...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
Stochastic particle-based models are useful tools for describing the collective movement of large cr...
This paper analyses the impact of collisions in a system of $N$ identical hard-core particles driven...
Particle diffusion is modified by the presence of barriers. In cells macromolecules, behaving as obs...
The presence of obstacles modifies the way in which particles diffuse. In cells, for instance, it is...
Usually time of passage across a region may be expected to increase with the number of barriers alon...
Particle diffusion in crowded media was studied through Monte Carlo simulations in 3D obstructed lat...
We study an asymmetric simple exclusion process in a strip in the presence of a solid impenetrable ...
We construct a coarse-grained model in terms of the multiple particles collision (MPC) method to stu...
Many biological systems are comprised of active particles, that is entities which move by consuming ...
Transport through biological environments that are densely crowded with obstacles is often classifie...
To know how particles move in small cavities, micro-channels and in general in crowded media current...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
Lateral diffusion of mobile proteins and lipids (tracers) in a membrane is hindered by the presence ...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
Stochastic particle-based models are useful tools for describing the collective movement of large cr...
This paper analyses the impact of collisions in a system of $N$ identical hard-core particles driven...
Particle diffusion is modified by the presence of barriers. In cells macromolecules, behaving as obs...
The presence of obstacles modifies the way in which particles diffuse. In cells, for instance, it is...
Usually time of passage across a region may be expected to increase with the number of barriers alon...
Particle diffusion in crowded media was studied through Monte Carlo simulations in 3D obstructed lat...
We study an asymmetric simple exclusion process in a strip in the presence of a solid impenetrable ...
We construct a coarse-grained model in terms of the multiple particles collision (MPC) method to stu...
Many biological systems are comprised of active particles, that is entities which move by consuming ...
Transport through biological environments that are densely crowded with obstacles is often classifie...
To know how particles move in small cavities, micro-channels and in general in crowded media current...
The motion of cells and molecules through biological environments is often hindered by the presence ...
The motion of cells and molecules through biological environments is often hindered by the presence ...
Lateral diffusion of mobile proteins and lipids (tracers) in a membrane is hindered by the presence ...
We investigate random walk of a particle constrained on cells, where cells behave as a lattice gas o...
Stochastic particle-based models are useful tools for describing the collective movement of large cr...
This paper analyses the impact of collisions in a system of $N$ identical hard-core particles driven...