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Marcus N Bannerman

Showing results (1-10 of 13) with videos related to

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The Journal of Chemical Physics|May 2, 2009
Transport properties of highly asymmetric hard-sphere mixturesMarcus N Bannerman, Leo Lue
The Journal of Chemical Physics|October 5, 2010
Exact on-event expressions for discrete potential systemsMarcus N Bannerman, Leo Lue
The Journal of Chemical Physics|September 22, 2022
Tethered hard spheres: A bridge between the fluid and solid phasesJames MacKinnon, Marcus N Bannerman, Leo Lue
The Journal of Chemical Physics|February 12, 2015
Mapping continuous potentials to discrete formsChris Thomson, Leo Lue, Marcus N Bannerman
The Journal of Chemical Physics|April 16, 2024
Using the Zeno line to assess and refine molecular modelsThomas Paterson, Marcus N Bannerman, Leo Lue
The Journal of Chemical Physics|August 15, 2021
Tethered-particle model: The calculation of free energies for hard-sphere systemsCraig Moir, Leo Lue, Marcus N Bannerman
The Journal of Chemical Physics|March 3, 2010
Thermodynamic pressures for hard spheres and closed-virial equation-of-stateMarcus N Bannerman, Leo Lue, Leslie V Woodcock
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|June 13, 2009
Collision statistics in sheared inelastic hard spheresMarcus N Bannerman, Thomas E Green, Paul Grassia, 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.
Physical Chemistry Chemical Physics : PCCP|April 15, 2020
A comprehensive study of the thermal conductivity of the hard sphere fluid and solid by molecular dynamics simulationSławomir Pieprzyk, Arkadiusz C Brańka, David M Heyes, et al.
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
The Journal of Chemical Physics|May 2, 2009
Transport properties of highly asymmetric hard-sphere mixturesMarcus N Bannerman, Leo Lue
The Journal of Chemical Physics|October 5, 2010
Exact on-event expressions for discrete potential systemsMarcus N Bannerman, Leo Lue
The Journal of Chemical Physics|September 22, 2022
Tethered hard spheres: A bridge between the fluid and solid phasesJames MacKinnon, Marcus N Bannerman, Leo Lue
The Journal of Chemical Physics|February 12, 2015
Mapping continuous potentials to discrete formsChris Thomson, Leo Lue, Marcus N Bannerman
The Journal of Chemical Physics|April 16, 2024
Using the Zeno line to assess and refine molecular modelsThomas Paterson, Marcus N Bannerman, Leo Lue
The Journal of Chemical Physics|August 15, 2021
Tethered-particle model: The calculation of free energies for hard-sphere systemsCraig Moir, Leo Lue, Marcus N Bannerman
The Journal of Chemical Physics|March 3, 2010
Thermodynamic pressures for hard spheres and closed-virial equation-of-stateMarcus N Bannerman, Leo Lue, Leslie V Woodcock
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|June 13, 2009
Collision statistics in sheared inelastic hard spheresMarcus N Bannerman, Thomas E Green, Paul Grassia, 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.
Physical Chemistry Chemical Physics : PCCP|April 15, 2020
A comprehensive study of the thermal conductivity of the hard sphere fluid and solid by molecular dynamics simulationSławomir Pieprzyk, Arkadiusz C Brańka, David M Heyes, et al.
Pageof 2