Emmanuel Trizac 1, Gabriel Tellez 2, Juan Pablo Mallarino 2
Journal of Physical Chemistry B 117, 42 (2013) 12702-12716
Charged rod-like polymers are not able to bind all their neutralizing counter-ions: a fraction of them evaporates while the others are said to be condensed. We study here counter-ion condensation and its ramifications, both numerically by means of Monte Carlo simulations employing a previously introduced powerful logarithmic sampling of radial coordinates, and analytically, with special emphasis on the strong-coupling regime. We focus on the thin rod, or needle limit, that is naturally reached under strong coulombic couplings, where the typical inter-particle spacing $a’$ along the rod is much larger than its radius R. This regime is complementary and opposite to the simpler thick rod case where $a’\ll R$. We show that due account of counter-ion evaporation, a universal phenomenon in the sense that it occurs in the same clothing for both weakly and strongly coupled systems, allows to obtain excellent agreement between the numerical simulations and the strong-coupling calculations.
- 1 : Laboratoire de Physique Théorique et Modèles Statistiques (LPTMS)
CNRS : UMR8626 – Université Paris XI – Paris Sud
- 2 : Departamento de Fisica
Universidad de Los Andes