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David M Heyes

Showing results (1-10 of 15) with videos related to

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Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 7, 2007
Stationary temperature profiles in a liquid nanochannel: comparisons between molecular-dynamics simulation and classical hydrostaticsHisashi Okumura, David M Heyes
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 9, 2005
Comparisons between molecular dynamics and hydrodynamics treatment of nonstationary thermal processes in a liquidHisashi Okumura, David M Heyes
The Journal of Chemical Physics|May 6, 2006
Equation of state and structural properties of the Weeks-Chandler-Andersen fluidDavid M Heyes, Hisashi Okumura
The Journal of Chemical Physics|June 25, 2005
Robust and accurate method for free-energy calculation of charged molecular systemsJamshed Anwar, David M Heyes
The Journal of Chemical Physics|August 12, 2017
Chemical potential of a test hard sphere of variable size in a hard-sphere fluidDavid M Heyes, Andrés Santos
The Journal of Chemical Physics|June 10, 2018
Chemical potential of a test hard sphere of variable size in hard-sphere fluid mixturesDavid M Heyes, Andrés Santos
Journal of Physics. Condensed Matter : an Institute of Physics Journal|June 22, 2011
First derivative of the hard-sphere radial distribution function at contactDavid M Heyes, Michael Cass, Arkadiusz C Brańka, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|December 17, 2013
Traction and nonequilibrium phase behavior of confined sheared liquids at high pressureChiara Gattinoni, David M Heyes, Christian D Lorenz, et al.
Physical Review. E|June 22, 2024
Revised Enskog theory and molecular dynamics simulations of the viscosities and thermal conductivity of the hard-sphere fluid and crystalSławomir Pieprzyk, Arkadiusz C Brańka, David M Heyes, et al.
The Journal of Chemical Physics|January 17, 2019
Revisiting the Stokes-Einstein relation without a hydrodynamic diameterLorenzo Costigliola, David M Heyes, Thomas B Schrøder, et al.
Pageof 2

Showing results (1-10 of 15) with videos related to

Sort By:
Pageof 2
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 7, 2007
Stationary temperature profiles in a liquid nanochannel: comparisons between molecular-dynamics simulation and classical hydrostaticsHisashi Okumura, David M Heyes
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 9, 2005
Comparisons between molecular dynamics and hydrodynamics treatment of nonstationary thermal processes in a liquidHisashi Okumura, David M Heyes
The Journal of Chemical Physics|May 6, 2006
Equation of state and structural properties of the Weeks-Chandler-Andersen fluidDavid M Heyes, Hisashi Okumura
The Journal of Chemical Physics|June 25, 2005
Robust and accurate method for free-energy calculation of charged molecular systemsJamshed Anwar, David M Heyes
The Journal of Chemical Physics|August 12, 2017
Chemical potential of a test hard sphere of variable size in a hard-sphere fluidDavid M Heyes, Andrés Santos
The Journal of Chemical Physics|June 10, 2018
Chemical potential of a test hard sphere of variable size in hard-sphere fluid mixturesDavid M Heyes, Andrés Santos
Journal of Physics. Condensed Matter : an Institute of Physics Journal|June 22, 2011
First derivative of the hard-sphere radial distribution function at contactDavid M Heyes, Michael Cass, Arkadiusz C Brańka, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|December 17, 2013
Traction and nonequilibrium phase behavior of confined sheared liquids at high pressureChiara Gattinoni, David M Heyes, Christian D Lorenz, et al.
Physical Review. E|June 22, 2024
Revised Enskog theory and molecular dynamics simulations of the viscosities and thermal conductivity of the hard-sphere fluid and crystalSławomir Pieprzyk, Arkadiusz C Brańka, David M Heyes, et al.
The Journal of Chemical Physics|January 17, 2019
Revisiting the Stokes-Einstein relation without a hydrodynamic diameterLorenzo Costigliola, David M Heyes, Thomas B Schrøder, et al.
Pageof 2