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000187407 0247_ $$2doi$$a10.1103/PhysRevE.91.013310
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000187407 1001_ $$0P:(DE-Juel1)130724$$aHuang, Chien-Cheng$$b0$$eCorresponding Author$$ufzj
000187407 245__ $$aThermostat for nonequilibrium multiparticle-collision-dynamics simulations
000187407 260__ $$aCollege Park, Md.$$bAPS$$c2015
000187407 264_1 $$2Crossref$$3online$$bAmerican Physical Society (APS)$$c2015-01-28
000187407 264_1 $$2Crossref$$3print$$bAmerican Physical Society (APS)$$c2015-01-01
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000187407 520__ $$aMultiparticle collision dynamics (MPC), a particle-based mesoscale simulation technique for complex fluid, is widely employed in nonequilibrium simulations of soft matter systems. To maintain a defined thermodynamic state, thermalization of the fluid is often required for certain MPC variants. We investigate the influence of three thermostats on the nonequilibrium properties of a MPC fluid under shear or in Poiseuille flow. In all cases, the local velocities are scaled by a factor, which is either determined via a local simple scaling approach (LSS), a Monte Carlo-like procedure (MCS), or by the Maxwell-Boltzmann distribution of kinetic energy (MBS). We find that the various scaling schemes leave the flow profile unchanged and maintain the local temperature well. The fluid viscosities extracted from the various simulations are in close agreement. Moreover, the numerically determined viscosities are in remarkably good agreement with the respective theoretically predicted values. At equilibrium, the calculation of the dynamic structure factor reveals that the MBS method closely resembles an isothermal ensemble, whereas the MCS procedure exhibits signatures of an adiabatic system at larger collision-time steps. Since the velocity distribution of the LSS approach is non-Gaussian, we recommend to apply the MBS thermostat, which has been shown to produce the correct velocity distribution even under nonequilibrium conditions.
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000187407 7001_ $$0P:(DE-Juel1)151187$$aVarghese, Anoop$$b1$$ufzj
000187407 7001_ $$0P:(DE-Juel1)130665$$aGompper, Gerhard$$b2$$ufzj
000187407 7001_ $$0P:(DE-Juel1)131039$$aWinkler, Roland G.$$b3$$ufzj
000187407 77318 $$2Crossref$$3journal-article$$a10.1103/physreve.91.013310$$bAmerican Physical Society (APS)$$d2015-01-28$$n1$$p013310$$tPhysical Review E$$v91$$x1539-3755$$y2015
000187407 773__ $$0PERI:(DE-600)2844562-4$$a10.1103/PhysRevE.91.013310$$gVol. 91, no. 1, p. 013310$$n1$$p013310$$tPhysical review / E$$v91$$x1539-3755$$y2015
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000187407 9130_ $$0G:(DE-HGF)POF2-451$$1G:(DE-HGF)POF2-450$$2G:(DE-HGF)POF2-400$$aDE-HGF$$bSchlüsseltechnologien$$lBioSoft: Makromolekulare Systeme und biologische Informationsverarbeitung$$vSoft Matter Composites$$x0
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000187407 9201_ $$0I:(DE-Juel1)IAS-2-20090406$$kIAS-2$$lTheorie der Weichen Materie und Biophysik$$x0
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