In the companion paper [Pugnaloni, Phys. Rev. E 93, 062902 (2016)10.1103/PhysRevE.93.062902], we use classical measures based on force probability density functions (PDFs), as well as Betti numbers (quantifying the number of components, related to force chains, and loops), to describe the force networks in tapped systems of disks and pentagons. In the present work, we focus on the use of persistence analysis, which allows us to describe these networks in much more detail. This approach allows us not only to describe but also to quantify the differences between the force networks in different realizations of a system, in different parts of the considered domain, or in different systems. We show that persistence analysis clearly distinguishes...
We carry out a direct comparison of experimental and numerical realizations of the exact same granul...
The force networks of different granular ensembles are defined and their topological properties stu...
Filamentous polymer networks govern the mechanical properties of many biological materials. Force di...
In the companion paper [Pugnaloni, Phys. Rev. E 93, 062902 (2016)10.1103/PhysRevE.93.062902], we use...
The force network of a granular assembly, defined by the contact network and the corresponding conta...
We present mathematical models based on persistent homology for analyzing force distributions in par...
The interactions between particles in dense particulate systems are organized in force networks, mes...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...
We investigate the evolution of the force network in experimental systems of two-dimensional granula...
We use the first Betti number of a complex to analyze the morphological structure of granular sample...
As a granular material is compressed, the particles and forces within the system arrange to form com...
Impact of an intruder on granular matter leads to formation of mesoscopic force networks seen parti...
We study the percolation properties of force networks in an anisotropic model for granular packings,...
The experiments involving a slider moving on top of granular media consisting of photoelastic partic...
We perform a detailed analysis of the contact force network in a dense confined packing of pentagona...
We carry out a direct comparison of experimental and numerical realizations of the exact same granul...
The force networks of different granular ensembles are defined and their topological properties stu...
Filamentous polymer networks govern the mechanical properties of many biological materials. Force di...
In the companion paper [Pugnaloni, Phys. Rev. E 93, 062902 (2016)10.1103/PhysRevE.93.062902], we use...
The force network of a granular assembly, defined by the contact network and the corresponding conta...
We present mathematical models based on persistent homology for analyzing force distributions in par...
The interactions between particles in dense particulate systems are organized in force networks, mes...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...
We investigate the evolution of the force network in experimental systems of two-dimensional granula...
We use the first Betti number of a complex to analyze the morphological structure of granular sample...
As a granular material is compressed, the particles and forces within the system arrange to form com...
Impact of an intruder on granular matter leads to formation of mesoscopic force networks seen parti...
We study the percolation properties of force networks in an anisotropic model for granular packings,...
The experiments involving a slider moving on top of granular media consisting of photoelastic partic...
We perform a detailed analysis of the contact force network in a dense confined packing of pentagona...
We carry out a direct comparison of experimental and numerical realizations of the exact same granul...
The force networks of different granular ensembles are defined and their topological properties stu...
Filamentous polymer networks govern the mechanical properties of many biological materials. Force di...