Dissipative response of driven bead-spring-dashpot chains
Abstract
The work dissipated in pulling a polymer chain with internal friction is numerically calculated by considering a sequence of bead-spring-dashpots tethered at one end and being pulled at the other using a harmonic trap via linear and symmetric protocols. The variation of the dissipation with the chain length, pulling trap stiffness, and the internal friction parameter are examined in detail for both the protocols. In the limit of high trap stiffness: (i) the dissipation with for chains with internal friction, keeping all other parameters constant, and (ii) the relationship between the dissipation and internal friction parameter deviates from linearity as is increased. Consequently, a closed-form expression between the dissipated work in driving a chain of spring-dashpots and the damping coefficient of a single dashpot can be written only for the case of [as shown in Phys. Rev. Res. , 013331 (2020)] and not for the general case of .
Keywords
Cite
@article{arxiv.2507.05692,
title = {Dissipative response of driven bead-spring-dashpot chains},
author = {R. Kailasham},
journal= {arXiv preprint arXiv:2507.05692},
year = {2025}
}
Comments
20 pages, 15 figures