Issue 39, 2017

Application of the Eckart frame to soft matter: rotation of star polymers under shear flow

Abstract

The Eckart co-rotating frame is used to analyze the dynamics of star polymers under shear flow, either in melt or solution and with different types of bonds. This formalism is compared with the standard approach used in many previous studies on polymer dynamics, where an apparent angular velocity ω is obtained from the relation between the tensor of inertia and angular momentum. A common mistake is to interpret ω as the molecular rotation frequency, which is only valid for rigid-body rotation. The Eckart frame, originally formulated to analyze the infrared spectra of small molecules, dissects different kinds of displacements: vibrations without angular momentum, pure rotation, and vibrational angular momentum (leading to a Coriolis cross-term). The Eckart frame co-rotates with the molecule with an angular frequency Ω obtained from the Eckart condition for minimal coupling between rotation and vibration. The standard and Eckart approaches are compared with a straight description of the star's dynamics taken from the time autocorrelation of the monomer positions moving around the molecule's center of mass. This is an underdamped oscillatory signal, which can be described by a rotation frequency ωR and a decorrelation rate Γ. We consistently find that Ω coincides with ωR, which determines the characteristic tank-treading rotation of the star. By contrast, the apparent angular velocity ω < Ω does not discern between pure rotation and molecular vibrations. We believe that the Eckart frame will be useful to unveil the dynamics of semiflexible molecules where rotation and deformations are entangled, including tumbling, tank-treading motions and breathing modes.

Graphical abstract: Application of the Eckart frame to soft matter: rotation of star polymers under shear flow

Article information

Article type
Paper
Submitted
27 Mar 2017
Accepted
30 Aug 2017
First published
05 Sep 2017
This article is Open Access
Creative Commons BY license

Soft Matter, 2017,13, 6988-7000

Application of the Eckart frame to soft matter: rotation of star polymers under shear flow

J. Sablić, R. Delgado-Buscalioni and M. Praprotnik, Soft Matter, 2017, 13, 6988 DOI: 10.1039/C7SM00616K

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