Theory of polymer translocation through a flickering nanopore under an alternating driving force
A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
JOURNAL OF CHEMICAL PHYSICS, Volume 143, issue 1
AbstractWe develop a theory for polymer translocation driven by a time-dependent force through an oscillating nanopore. To this end, we extend the iso-flux tension propagation theory [Sarabadani et al., J. Chem. Phys. 141, 214907 (2014)] for such a setup. We assume that the external driving force in the pore has a component oscillating in time, and the flickering pore is similarly described by an oscillating term in the pore friction. In addition to numerically solving the model, we derive analytical approximations that are in good agreement with the numerical simulations. Our results show that by controlling either the force or pore oscillations, the translocation process can be either sped up or slowed down depending on the frequency of the oscillations and the characteristic time scale of the process. We also show that while in the low and high frequency limits, the translocation time τ follows the established scaling relation with respect to chain length N 0, in the intermediate frequency regime small periodic, fluctuations can have drastic effects on the dynamical scaling. The results can be easily generalized for non-periodic oscillations and elucidate the role of time dependent forces and pore oscillations in driven polymer translocation.
Polymer, Driven translocation, nanopore
Sarabadani , J , Ikonen , T & Ala-Nissila , T 2015 , ' Theory of polymer translocation through a flickering nanopore under an alternating driving force ' , Journal of Chemical Physics , vol. 143 , no. 1 , 074905 , pp. 1-10 . https://doi.org/10.1063/1.4928743