A topological method defines local entanglements via Gaussian Linking Number, locates force centers, and distills CGMD polymer networks into efficient discrete network models reproducing virial stress predictions.
D., Chandler D., Andersen H
2 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.soft 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Simulations of dilute linear, comb, and star polymers show axial dispersion coefficients collapse versus Peclet number after confinement corrections and match theory in parallel-plate channels.
citing papers explorer
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Physically-Motivated Primitive Path Analysis of Entangled Polymer Networks
A topological method defines local entanglements via Gaussian Linking Number, locates force centers, and distills CGMD polymer networks into efficient discrete network models reproducing virial stress predictions.
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Axial dispersion in dilute solutions of linear and branched polymers in parallel-plate and expansion-contraction microchannels
Simulations of dilute linear, comb, and star polymers show axial dispersion coefficients collapse versus Peclet number after confinement corrections and match theory in parallel-plate channels.