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W G Noid

Showing results (11-20 of 42) with videos related to

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The Journal of Chemical Physics|October 5, 2010
Reference state for the generalized Yvon-Born-Green theory: application for coarse-grained model of hydrophobic hydrationJ W Mullinax, W G Noid
Proceedings of the National Academy of Sciences of the United States of America|November 3, 2010
Recovering physical potentials from a model protein databankJ W Mullinax, W G Noid
The Journal of Chemical Physics|January 10, 2019
Systematic study of temperature and density variations in effective potentials for coarse-grained models of molecular liquidsKathryn M Lebold, W G Noid
The Journal of Chemical Physics|December 16, 2019
Analysis of local density potentialsMichael R DeLyser, W G Noid
The Journal of Chemical Physics|December 14, 2011
Coarse-graining entropy, forces, and structuresJoseph F Rudzinski, W G Noid
The Journal of Chemical Physics|November 3, 2019
Dual-potential approach for coarse-grained implicit solvent models with accurate, internally consistent energetics and predictive transferabilityKathryn M Lebold, W G Noid
The Journal of Chemical Physics|January 23, 2022
Coarse-grained models for local density gradientsMichael R DeLyser, W G Noid
Journal of Physics. Condensed Matter : an Institute of Physics Journal|January 26, 2021
Investigating the energetic and entropic components of effective potentials across a glass transitionRyan J Szukalo, W G Noid
The Journal of Chemical Physics|October 12, 2004
Interpreting nonlinear vibrational spectroscopy with the classical mechanical analogs of double-sided Feynman diagramsW G Noid, Roger F Loring
The Journal of Chemical Physics|May 25, 2005
Classical and quantum mechanical infrared echoes from resonantly coupled molecular vibrationsW G Noid, Roger F Loring
Pageof 5

Showing results (11-20 of 42) with videos related to

Sort By:
Pageof 5
The Journal of Chemical Physics|October 5, 2010
Reference state for the generalized Yvon-Born-Green theory: application for coarse-grained model of hydrophobic hydrationJ W Mullinax, W G Noid
Proceedings of the National Academy of Sciences of the United States of America|November 3, 2010
Recovering physical potentials from a model protein databankJ W Mullinax, W G Noid
The Journal of Chemical Physics|January 10, 2019
Systematic study of temperature and density variations in effective potentials for coarse-grained models of molecular liquidsKathryn M Lebold, W G Noid
The Journal of Chemical Physics|December 16, 2019
Analysis of local density potentialsMichael R DeLyser, W G Noid
The Journal of Chemical Physics|December 14, 2011
Coarse-graining entropy, forces, and structuresJoseph F Rudzinski, W G Noid
The Journal of Chemical Physics|November 3, 2019
Dual-potential approach for coarse-grained implicit solvent models with accurate, internally consistent energetics and predictive transferabilityKathryn M Lebold, W G Noid
The Journal of Chemical Physics|January 23, 2022
Coarse-grained models for local density gradientsMichael R DeLyser, W G Noid
Journal of Physics. Condensed Matter : an Institute of Physics Journal|January 26, 2021
Investigating the energetic and entropic components of effective potentials across a glass transitionRyan J Szukalo, W G Noid
The Journal of Chemical Physics|October 12, 2004
Interpreting nonlinear vibrational spectroscopy with the classical mechanical analogs of double-sided Feynman diagramsW G Noid, Roger F Loring
The Journal of Chemical Physics|May 25, 2005
Classical and quantum mechanical infrared echoes from resonantly coupled molecular vibrationsW G Noid, Roger F Loring
Pageof 5