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W1486242232 abstract "Homogeneous shear flows (with constant strainrate $d{v}_{x}∕dy$) are generated with the Doll's and Sllod algorithms and compared to corresponding inhomogeneous boundary-driven flows. We use one-, two-, and three-dimensional smooth-particle weight functions for computing instantaneous spatial averages. The nonlinear normal-stress differences are small, but significant, in both two and three space dimensions. In homogeneous systems the sign and magnitude of the shearplane stress difference, ${P}_{xx}ensuremath{-}{P}_{yy}$, depend on both the thermostat type and the chosen shearflow algorithm. The Doll's and Sllod algorithms predict opposite signs for this normal-stress difference, with the Sllod approach definitely wrong, but somewhat closer to the (boundary-driven) truth. Neither of the homogeneous shear algorithms predicts the correct ordering of the kinetic temperatures: ${T}_{xx}>{T}_{zz}>{T}_{yy}$." @default.
W1486242232 created "2016-06-24" @default.
W1486242232 creator A5018844401 @default.
W1486242232 creator A5058231767 @default.
W1486242232 creator A5073258256 @default.
W1486242232 date "2008-10-02" @default.
W1486242232 modified "2023-09-28" @default.
W1486242232 title "Simulation of two- and three-dimensional dense-fluid shear flows via nonequilibrium molecular dynamics: Comparison of time-and-space-averaged stresses from homogeneous Doll’s and Sllod shear algorithms with those from boundary-driven shear" @default.
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W1486242232 doi "https://doi.org/10.1103/physreve.78.046701" @default.
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