We review the methodology, algorithmic implementation and performance characteristics of a hierarchical modeling scheme for the generation, equilibration and topological analysis of polymer systems at various levels of molecular description: from atomistic polyethylene samples to random packings of freely-jointed chains of tangent hard spheres of uniform size. Our analysis focuses on hitherto less discussed algorithmic details of the implementation of both, the Monte Carlo (MC) procedure for the system generation and equilibration, and a postprocessing step, where we identify the underlying topological structure of the simulated systems in the form of primitive paths. In order to demonstrate our arguments, we study how molecular length and ...
Polymers is a class of molecules which can have many different structures due to a large number of d...
Topological entanglement in polymers and biopolymers is a topic that involves different fields of...
We review the main results from extensive Monte Carlo (MC) simulations on athermal polymer packings ...
We review the methodology, algorithmic implementation and performance characteristics of a hierarchi...
We review the methodology, algorithmic implementation and performance characteristics of a hierarchi...
We present detailed results on the effect of chain branching on the topological properties of entang...
We present a method to map the full equilibrium distribution of the primitive-path (PP) length, obta...
Using molecular dynamics (MD) simulations in conjunction with topological analysis algorithms, we in...
Abstract: Recent theoretical studies have demonstrated that the behaviour of molecular knots is a se...
We propose a new way of characterizing the entanglement complexity of concentrated polymer soluti...
We present Monte Carlo results on a model of polymers in a condensed phase, over a range of monom...
The new multibond algorithm for the Monte Carlo simulations of polymers developed for an isolated ch...
We present a powerful connectivity-altering Monte Carlo (MC) algorithm for simulating atomistically ...
Recent theoretical studies have demonstrated that the behaviour of molecular knots is a sensitive in...
Three different approaches have been reported in the last few years for identifying topological cons...
Polymers is a class of molecules which can have many different structures due to a large number of d...
Topological entanglement in polymers and biopolymers is a topic that involves different fields of...
We review the main results from extensive Monte Carlo (MC) simulations on athermal polymer packings ...
We review the methodology, algorithmic implementation and performance characteristics of a hierarchi...
We review the methodology, algorithmic implementation and performance characteristics of a hierarchi...
We present detailed results on the effect of chain branching on the topological properties of entang...
We present a method to map the full equilibrium distribution of the primitive-path (PP) length, obta...
Using molecular dynamics (MD) simulations in conjunction with topological analysis algorithms, we in...
Abstract: Recent theoretical studies have demonstrated that the behaviour of molecular knots is a se...
We propose a new way of characterizing the entanglement complexity of concentrated polymer soluti...
We present Monte Carlo results on a model of polymers in a condensed phase, over a range of monom...
The new multibond algorithm for the Monte Carlo simulations of polymers developed for an isolated ch...
We present a powerful connectivity-altering Monte Carlo (MC) algorithm for simulating atomistically ...
Recent theoretical studies have demonstrated that the behaviour of molecular knots is a sensitive in...
Three different approaches have been reported in the last few years for identifying topological cons...
Polymers is a class of molecules which can have many different structures due to a large number of d...
Topological entanglement in polymers and biopolymers is a topic that involves different fields of...
We review the main results from extensive Monte Carlo (MC) simulations on athermal polymer packings ...