Tangentially Driven Active Polar Linear Polymers -- An Analytical Study

Autor: Gerhard Gompper, Roland G. Winkler, Christian Anton Philipps
Rok vydání: 2022
Předmět:
Zdroj: The journal of chemical physics 157(19), 194904 (2022). doi:10.1063/5.0120493
DOI: 10.48550/arxiv.2209.15364
Popis: The conformational and dynamical properties of isolated flexible active polar linear polymers (APLPs) are studied analytically. The APLPs are modeled as Gaussian bead-spring linear chains augmented by tangential active forces, both in a discrete and continuous representations. The polar forces lead to linear non-Hermitian equations of motion, which are solved by an eigenfunction expansion in terms of a biorthogonal basis set. Our calculations show that the polymer conformations are independent of activity. On the contrary, tangential propulsion strongly impacts the polymer dynamics and yields an active ballistic regime as well as activity-enhanced long-time diffusion, regimes which are both absent in passive systems. The polar forces imply a coupling of modes in the eigenfunction representation, in particular with the translational mode, with a respective strong influence on the polymer dynamics. The total polymer mean-square displacement on scales smaller than their radius of gyration is determined by the active internal dynamics rather than the collective center-of-mass motion, in contrast to active Brownian polymers, reflecting the distinct difference in the propulsion mechanism.
Comment: 10 Figures
Databáze: OpenAIRE