Add to ORKGA novel algorithm is developed for the simulation of polymer chains suspended in a solvent. The polymers are represented as chains of hard spheres tethered by square wells and interact with the solvent particles with hard core potentials. The algorithm uses event-driven molecular dynamics (MD) for the simulation of the polymer chain and the interactions between the chain beads and the surrounding solvent particles. The interactions between the solvent particles themselves are not treated deterministically as in event-driven algorithms, rather, the momentum and energy exchange in the solvent is determined stochastically using the Direct Simulation Monte Carlo (DSMC) method. The coupling between the solvent and the solute is consistently repr...
With the recent completion of the Human Genome Project and the announcement of the $1000 Genome Race...
We develop the hybrid Monte Carlo method for simulations of single off-lattice polymer chains. We di...
Presented on September 17, 2008, from 4-5 pm in room G011 of the Molecular Science and Engineering ...
Metropolis Monte Carlo has been employed with remarkable success over the years to simulate the dens...
Predicting chain microstructure became an important task for polymer scientists. Polydisperse nature...
A system of efficient computer programs has been developed for simulating the conformations of macro...
The study of single polymer dynamics has, in the past few years, undergone a resurgence. This has be...
Molecular dynamics simulation has become an important tool for testing and developing hypotheses abo...
Over the past half century, molecular dynamics simulation techniques have advanced considerably, aim...
Excluded Volume (EV) and Hydrodynamic Interactions (HI) play a central role in static and dynamic pr...
A coarse-grained model for molecular dynamics simulations of polymer solutions with variable solvent...
We present a powerful connectivity-altering Monte Carlo (MC) algorithm for simulating atomistically ...
To model entire microfluidic systems containing solvated polymers we argue that it is necessary to h...
Polymer melts generally demonstrate complicated dynamic and stress relaxation behaviours, which are...
Computer-aided modeling is a systematic approach to grasp the physics of macromolecules, but it rema...
With the recent completion of the Human Genome Project and the announcement of the $1000 Genome Race...
We develop the hybrid Monte Carlo method for simulations of single off-lattice polymer chains. We di...
Presented on September 17, 2008, from 4-5 pm in room G011 of the Molecular Science and Engineering ...
Metropolis Monte Carlo has been employed with remarkable success over the years to simulate the dens...
Predicting chain microstructure became an important task for polymer scientists. Polydisperse nature...
A system of efficient computer programs has been developed for simulating the conformations of macro...
The study of single polymer dynamics has, in the past few years, undergone a resurgence. This has be...
Molecular dynamics simulation has become an important tool for testing and developing hypotheses abo...
Over the past half century, molecular dynamics simulation techniques have advanced considerably, aim...
Excluded Volume (EV) and Hydrodynamic Interactions (HI) play a central role in static and dynamic pr...
A coarse-grained model for molecular dynamics simulations of polymer solutions with variable solvent...
We present a powerful connectivity-altering Monte Carlo (MC) algorithm for simulating atomistically ...
To model entire microfluidic systems containing solvated polymers we argue that it is necessary to h...
Polymer melts generally demonstrate complicated dynamic and stress relaxation behaviours, which are...
Computer-aided modeling is a systematic approach to grasp the physics of macromolecules, but it rema...
With the recent completion of the Human Genome Project and the announcement of the $1000 Genome Race...
We develop the hybrid Monte Carlo method for simulations of single off-lattice polymer chains. We di...
Presented on September 17, 2008, from 4-5 pm in room G011 of the Molecular Science and Engineering ...