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'''Dissipative particle dynamics''' (DPD) | '''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== | ||
#[http://dx.doi.org/10.1209/0295-5075/19/3/001 P. J. Hoogerbrugge and J. M. V. A. Koelman "Simulating Microscopic Hydrodynamic Phenomena with Dissipative Particle Dynamics", Europhysics Letters '''19''' pp. 155-160 (1992)] | |||
#[http://dx.doi.org/10.1209/0295-5075/30/4/001 P. Español and P. Warren "Statistical Mechanics of Dissipative Particle Dynamics", Europhysics Letters '''30''' pp. 191-196 (1995)] | |||
#[http://dx.doi.org/10.1103/PhysRevLett.83.1775 Eirik G. Flekkøy and Peter V. Coveney "From Molecular Dynamics to Dissipative Particle Dynamics", Physical Review Letters '''83''' pp. 1775 - 1778 (1999)] | |||
#[http://dx.doi.org/10.1103/PhysRevE.62.2140 Eirik G. Flekkøy, Peter V. Coveney, and Gianni De Fabritiis "Foundations of dissipative particle dynamics", Physical Review E '''62''' pp. 2140 - 2157 (2000)] | |||
[[Category: Computer simulation techniques]] | [[Category: Computer simulation techniques]] |