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Daniel M Sussman

Showing results (1-10 of 36) with videos related to

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Physical Review. E|August 31, 2016
Spatial distribution of entanglements in thin free-standing filmsDaniel M Sussman
Soft Matter|April 19, 2018
No unjamming transition in a Voronoi model of biological tissueDaniel M Sussman, Matthias Merkel
Physical Review Letters|September 10, 2011
Microscopic theory of the tube confinement potential for liquids of topologically entangled rigid macromoleculesDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|August 12, 2017
A force-level theory of the rheology of entangled rod and chain polymer liquids. I. Tube deformation, microscopic yielding, and the nonlinear elastic limitKenneth S Schweizer, Daniel M Sussman
Physical Review Letters|December 11, 2012
Microscopic theory of entangled polymer melt dynamics: flexible chains as primitive-path random walks and supercoarse grained needlesDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|October 14, 2011
Communication: effects of stress on the tube confinement potential and dynamics of topologically entangled rod fluidsDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|February 17, 2011
Theory of correlated two-particle activated glassy dynamics: general formulation and heterogeneous structural relaxation in hard sphere fluidsDaniel M Sussman, Kenneth S Schweizer
Soft Matter|March 17, 2025
Banded phases in topological flocksCharles R Packard, Daniel M Sussman
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|July 30, 2011
Microscopic theory of topologically entangled fluids of rigid macromoleculesDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|January 9, 2017
Erratum: "A force-level theory of the rheology of entangled rod and chain polymer liquids. I. Tube deformation, microscopic yielding, and the nonlinear elastic limit" [J. Chem. Phys. 145, 214903 (2016)]Kenneth S Schweizer, Daniel M Sussman
Pageof 4

Showing results (1-10 of 36) with videos related to

Sort By:
Pageof 4
Physical Review. E|August 31, 2016
Spatial distribution of entanglements in thin free-standing filmsDaniel M Sussman
Soft Matter|April 19, 2018
No unjamming transition in a Voronoi model of biological tissueDaniel M Sussman, Matthias Merkel
Physical Review Letters|September 10, 2011
Microscopic theory of the tube confinement potential for liquids of topologically entangled rigid macromoleculesDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|August 12, 2017
A force-level theory of the rheology of entangled rod and chain polymer liquids. I. Tube deformation, microscopic yielding, and the nonlinear elastic limitKenneth S Schweizer, Daniel M Sussman
Physical Review Letters|December 11, 2012
Microscopic theory of entangled polymer melt dynamics: flexible chains as primitive-path random walks and supercoarse grained needlesDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|October 14, 2011
Communication: effects of stress on the tube confinement potential and dynamics of topologically entangled rod fluidsDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|February 17, 2011
Theory of correlated two-particle activated glassy dynamics: general formulation and heterogeneous structural relaxation in hard sphere fluidsDaniel M Sussman, Kenneth S Schweizer
Soft Matter|March 17, 2025
Banded phases in topological flocksCharles R Packard, Daniel M Sussman
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|July 30, 2011
Microscopic theory of topologically entangled fluids of rigid macromoleculesDaniel M Sussman, Kenneth S Schweizer
The Journal of Chemical Physics|January 9, 2017
Erratum: "A force-level theory of the rheology of entangled rod and chain polymer liquids. I. Tube deformation, microscopic yielding, and the nonlinear elastic limit" [J. Chem. Phys. 145, 214903 (2016)]Kenneth S Schweizer, Daniel M Sussman
Pageof 4