# Difference between revisions of "Dissipative particle dynamics"

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− | '''Dissipative particle dynamics''' (DPD) is a technique originally developed for simulating hydrodynamic phenomena. In particular, it targets '''fluctuating hydrodynamics''', a mesoscopic regime in which fluctuations play a role. One of its main uses is a [[thermostats | thermostat ]] for [[molecular dynamics]] simulations, since the DPD interactions have the desirable property of momentum conservation (both linear, and angular). In one of its most recent formulations | + | '''Dissipative particle dynamics''' (DPD) is a technique originally developed for simulating hydrodynamic phenomena. In particular, it targets '''fluctuating hydrodynamics''', a mesoscopic regime in which fluctuations play a role. One of its main uses is a [[thermostats | thermostat ]] for [[molecular dynamics]] simulations, since the DPD interactions have the desirable property of momentum conservation (both linear, and angular). In [[Voronoi particles | one of its most recent formulations]] it makes intense use of [[ Voronoi cells | Voronoi tessellations ]]. |

==References== | ==References== |

## Revision as of 13:27, 13 May 2009

**Dissipative particle dynamics** (DPD) is a technique originally developed for simulating hydrodynamic phenomena. In particular, it targets **fluctuating hydrodynamics**, a mesoscopic regime in which fluctuations play a role. One of its main uses is a thermostat for molecular dynamics simulations, since the DPD interactions have the desirable property of momentum conservation (both linear, and angular). In one of its most recent formulations it makes intense use of Voronoi tessellations .

## References

- P. J. Hoogerbrugge and J. M. V. A. Koelman "Simulating Microscopic Hydrodynamic Phenomena with Dissipative Particle Dynamics", Europhysics Letters
**19**pp. 155-160 (1992) - P. Español and P. Warren "Statistical Mechanics of Dissipative Particle Dynamics", Europhysics Letters
**30**pp. 191-196 (1995) - Eirik G. Flekkøy and Peter V. Coveney "From Molecular Dynamics to Dissipative Particle Dynamics", Physical Review Letters
**83**pp. 1775 - 1778 (1999) - Eirik G. Flekkøy, Peter V. Coveney, and Gianni De Fabritiis "Foundations of dissipative particle dynamics", Physical Review E
**62**pp. 2140 - 2157 (2000)