The experiments involving a slider moving on top of granular media consisting of photoelastic particles in two dimensions have uncovered elaborate dynamics that may vary from continuous motion to crackling, periodic motion, and stick-slip type of behavior. We establish that there is a clear correlation between the slider dynamics and the response of the force network that spontaneously develop in the granular system. This correlation is established by application of the persistence homology that allows for formulation of objective measures for quantification of time-dependent force networks. We find that correlation between the slider dynamics and the force network properties is particularly strong in the dynamical regime characterized by w...
One of the most visually striking features of granular materials is their heterogeneous pattern of f...
We detect the strong force networks in a dense high shear system and we study their structure and st...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...
The experiments involving a slider moving on top of granular media consisting of photoelastic partic...
Granular particle systems are scattered around the universe, and they can behave like solids when th...
Impact of an intruder on granular matter leads to formation of mesoscopic force networks seen parti...
When dense granular systems are exposed to external forcing, they evolve on the time scale that is t...
We investigate the evolution of the force network in experimental systems of two-dimensional granula...
We study the stick-slip behavior of a granular bed of photoelastic disks sheared by a rough slider p...
We present an experiment in which a horizontal quasi-2D granular system with a fixed neighbor networ...
The interactions between particles in dense particulate systems are organized in force networks, mes...
The study of granular materials is a novel and rapidly growing field. These materials are interest f...
We present mathematical models based on persistent homology for analyzing force distributions in par...
International audienceThe paper studies the evolution of contact forces in granular materials as a p...
We report experimental evidence of a Gardner-like transition from variable to persistent force conta...
One of the most visually striking features of granular materials is their heterogeneous pattern of f...
We detect the strong force networks in a dense high shear system and we study their structure and st...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...
The experiments involving a slider moving on top of granular media consisting of photoelastic partic...
Granular particle systems are scattered around the universe, and they can behave like solids when th...
Impact of an intruder on granular matter leads to formation of mesoscopic force networks seen parti...
When dense granular systems are exposed to external forcing, they evolve on the time scale that is t...
We investigate the evolution of the force network in experimental systems of two-dimensional granula...
We study the stick-slip behavior of a granular bed of photoelastic disks sheared by a rough slider p...
We present an experiment in which a horizontal quasi-2D granular system with a fixed neighbor networ...
The interactions between particles in dense particulate systems are organized in force networks, mes...
The study of granular materials is a novel and rapidly growing field. These materials are interest f...
We present mathematical models based on persistent homology for analyzing force distributions in par...
International audienceThe paper studies the evolution of contact forces in granular materials as a p...
We report experimental evidence of a Gardner-like transition from variable to persistent force conta...
One of the most visually striking features of granular materials is their heterogeneous pattern of f...
We detect the strong force networks in a dense high shear system and we study their structure and st...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...