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D J Diestler

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

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The Journal of Physical Chemistry. A|November 23, 2011
Coupled-channels quantum theory of electronic flux density in electronically adiabatic processes: fundamentalsD J Diestler
The Journal of Physical Chemistry. A|May 3, 2013
Beyond the Born-Oppenheimer approximation: a treatment of electronic flux density in electronically adiabatic molecular processesD J Diestler
The Journal of Physical Chemistry. A|July 11, 2012
Quasi-classical theory of electronic flux density in electronically adiabatic molecular processesD J Diestler
Physical Review Letters|June 4, 2008
Statistical thermodynamics of the stability of multivalent ligand-receptor complexesD J Diestler, E W Knapp
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|November 3, 2001
Role of nanoscopic liquid bridges in static frictionH Bock, D J Diestler, M Schoen
Science (New York, N.Y.)|October 22, 1993
On the thermodynamic stability of confined thin films under shearD J Diestler, M Schoen, J H Cushman
The Journal of Chemical Physics|November 13, 2004
An extension of the quasicontinuum treatment of multiscale solid systems to nonzero temperatureD J Diestler, Z-B Wu, X C Zeng
The Journal of Chemical Physics|October 16, 2004
Hybrid atomistic-coarse-grained treatment of thin-film lubrication. IIZ-B Wu, D J Diestler, X C Zeng
The Journal of Physical Chemistry. A|November 23, 2011
Coupled-channels quantum theory of electronic flux density in electronically adiabatic processes: application to the hydrogen molecule ionD J Diestler, A Kenfack, J Manz, et al.
The Journal of Physical Chemistry. A|January 25, 2018
Na<sub>2</sub> Vibrating in the Double-Well Potential of State 2 <sup>1</sup>Σ<sub>u</sub><sup>+</sup> (JM = 00): A Pulsating "Quantum Bubble" with Antagonistic Electronic FluxD J Diestler, D Jia, J Manz, et al.
Pageof 2

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

Sort By:
Pageof 2
The Journal of Physical Chemistry. A|November 23, 2011
Coupled-channels quantum theory of electronic flux density in electronically adiabatic processes: fundamentalsD J Diestler
The Journal of Physical Chemistry. A|May 3, 2013
Beyond the Born-Oppenheimer approximation: a treatment of electronic flux density in electronically adiabatic molecular processesD J Diestler
The Journal of Physical Chemistry. A|July 11, 2012
Quasi-classical theory of electronic flux density in electronically adiabatic molecular processesD J Diestler
Physical Review Letters|June 4, 2008
Statistical thermodynamics of the stability of multivalent ligand-receptor complexesD J Diestler, E W Knapp
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|November 3, 2001
Role of nanoscopic liquid bridges in static frictionH Bock, D J Diestler, M Schoen
Science (New York, N.Y.)|October 22, 1993
On the thermodynamic stability of confined thin films under shearD J Diestler, M Schoen, J H Cushman
The Journal of Chemical Physics|November 13, 2004
An extension of the quasicontinuum treatment of multiscale solid systems to nonzero temperatureD J Diestler, Z-B Wu, X C Zeng
The Journal of Chemical Physics|October 16, 2004
Hybrid atomistic-coarse-grained treatment of thin-film lubrication. IIZ-B Wu, D J Diestler, X C Zeng
The Journal of Physical Chemistry. A|November 23, 2011
Coupled-channels quantum theory of electronic flux density in electronically adiabatic processes: application to the hydrogen molecule ionD J Diestler, A Kenfack, J Manz, et al.
The Journal of Physical Chemistry. A|January 25, 2018
Na<sub>2</sub> Vibrating in the Double-Well Potential of State 2 <sup>1</sup>Σ<sub>u</sub><sup>+</sup> (JM = 00): A Pulsating "Quantum Bubble" with Antagonistic Electronic FluxD J Diestler, D Jia, J Manz, et al.
Pageof 2