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ICCS
2007
Springer
2007
Springer
A General Long-Time Molecular Dynamics Scheme in Atomistic Systems: Hyperdynamics in Entropy Dominated Systems
Abstract. We extend the hyperdynamics method developed for lowdimensional energy-dominated systems, to simulate slow dynamics in more general atomistic systems. We show that a few functionals of the pair distribution function forms a low-dimensional collective space, which is a good approximation to distinguish stable and transitional conformations. A bias potential that raises the energy in stable regions, where the system is at local equilibrium, is constructed in the pair-correlation space on the fly. Thus a new MD scheme is present to study any time-scale dynamics with atomic details. We examine the slow gas-liquid transition of Lennard-Jones systems and show that this method can generate correct long-time dynamics and focus on the transition conformations without prior knowledge of the systems. We also discuss the application and possible improvement of the method for more complex systems.
Real-time TrafficGeneral Atomistic Systems | ICCS 2007 | Low-dimensional Collective Space | Lowdimensional Energy-dominated Systems |
| Added | 08 Jun 2010 |
| Updated | 08 Jun 2010 |
| Type | Conference |
| Year | 2007 |
| Where | ICCS |
| Authors | Xin Zhou, Yi Jiang |
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