Tube Concept for Entangled Stiff Fibers Predicts Their Dynamics in Space and Time
arXiv:1608.07250 · doi:10.1103/PhysRevLett.117.097801
Abstract
We study dynamically crowded solutions of stiff fibers deep in the semidilute regime, where the motion of a single constituent becomes increasingly confined to a narrow tube. The spatiotemporal dynamics for wave numbers resolving the motion in the confining tube becomes accessible in Brownian dynamics simulations upon employing a geometry-adapted neighbor list. We demonstrate that in such crowded environments the intermediate scattering function, characterizing the motion in space and time, can be predicted quantitatively by simulating a single freely diffusing phantom needle only, yet with very unusual diffusion coefficients.
11 pages, Physical Review Letters, includes Supplemental Material