Your search keyword '"de Pablo, J. J."' showing total 3 results

1. Improved transition path sampling methods for simulation of rare events.

Author

Chopra M, Malshe R, Reddy AS, and de Pablo JJ

Subjects

Computer Simulation, Phase Transition, Sample Size, Algorithms, Models, Chemical, Models, Molecular, Models, Statistical

Abstract

The free energy surfaces of a wide variety of systems encountered in physics, chemistry, and biology are characterized by the existence of deep minima separated by numerous barriers. One of the central aims of recent research in computational chemistry and physics has been to determine how transitions occur between deep local minima on rugged free energy landscapes, and transition path sampling (TPS) Monte-Carlo methods have emerged as an effective means for numerical investigation of such transitions. Many of the shortcomings of TPS-like approaches generally stem from their high computational demands. Two new algorithms are presented in this work that improve the efficiency of TPS simulations. The first algorithm uses biased shooting moves to render the sampling of reactive trajectories more efficient. The second algorithm is shown to substantially improve the accuracy of the transition state ensemble by introducing a subset of local transition path simulations in the transition state. The system considered in this work consists of a two-dimensional rough energy surface that is representative of numerous systems encountered in applications. When taken together, these algorithms provide gains in efficiency of over two orders of magnitude when compared to traditional TPS simulations.

Published

2008

2. Improved density of states Monte Carlo method based on recycling of rejected states.

Author

Chopra, Manan and De Pablo, J. J.

Subjects

*ALGORITHMS, *MONTE Carlo method, *MATHEMATICAL models, *NUMERICAL analysis, *SIMULATION methods & models, *DENSITY

Abstract

In this paper a new algorithm is presented that improves the efficiency of Wang and Landau algorithm or density of states (DOS) Monte Carlo simulations by employing rejected states. The algorithm is shown to have a performance superior to that of the original Wang-Landau [F. Wang and D. P. Landau, Phys. Rev. Lett. 86, 2050 (2001)] algorithm and the more recent configurational temperature DOS algorithm. The performance of the method is illustrated in the context of results for the Lennard-Jones fluid. [ABSTRACT FROM AUTHOR]

Published

2006

3. Potential of mean force between two nanometer-scale particles in a polymer solution.

Author

Doxastakis, M., Chen, Y.-L., and de Pablo, J. J.

Subjects

POLYMER solutions, POLYMERS, ALGORITHMS, SOLUTION (Chemistry), FLUCTUATIONS (Physics), DENSITY

Abstract

Expanded ensemble density-of-states simulations and a connectivity altering algorithm are used to investigate the effective interactions that arise between nanoparticles suspended in polymer solutions. Our calculations with systems of long polymeric chains reveal oscillations in the effective polymer-induced interactions between the particles, even at low concentrations. The range of these interactions is considerably longer than originally anticipated, and their origin is traced back to the chain-end effects and density fluctuations that were absent in previous treatments of these systems. [ABSTRACT FROM AUTHOR]

Published

2005