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Main Authors: Samaj, L., Trizac, E., Trulsson, M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.06153
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author Samaj, L.
Trizac, E.
Trulsson, M.
author_facet Samaj, L.
Trizac, E.
Trulsson, M.
contents We are interested in rationalizing the phenomenon of like-charge attraction between charged bodies, such as a pair of colloids, in the strong coupling regime. The two colloids are modelled as uniformly charged parallel plates, neutralized by mobile counterions. In an earlier work [Palaia et al., J. Phys. Chem. B 126, 3143 (2022)], we developed an effective-field theory for symmetric plates, stemming from the ground-state description that holds at infinite couplings. Here, we generalize the approach to the asymmetric case, where the plates bear charges of the same sign, but of different values. In the symmetric situation, the mobile ions, which are localized in the vicinity of the two plates, share equally between both of them. Here, the sharing is non-trivial, depending both on the coupling parameter and the distance between the plates. We thus introduce a counterion occupation parameter, that is determined variationally to ensure minimum of the free energy. The resulting analytical results for the pressure as a function of the plate-plate distance $d$ agree well with our Monte Carlo data, in a large interval of strong and intermediate coupling constants $Ξ$. We show in particular that within this description, there exists a range of large distances at which the attractive pressure features a $1/d^2$ behavior.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06153
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A strong-coupling effective-field theory for asymmetrically charged plates with counterions only
Samaj, L.
Trizac, E.
Trulsson, M.
Soft Condensed Matter
Statistical Mechanics
We are interested in rationalizing the phenomenon of like-charge attraction between charged bodies, such as a pair of colloids, in the strong coupling regime. The two colloids are modelled as uniformly charged parallel plates, neutralized by mobile counterions. In an earlier work [Palaia et al., J. Phys. Chem. B 126, 3143 (2022)], we developed an effective-field theory for symmetric plates, stemming from the ground-state description that holds at infinite couplings. Here, we generalize the approach to the asymmetric case, where the plates bear charges of the same sign, but of different values. In the symmetric situation, the mobile ions, which are localized in the vicinity of the two plates, share equally between both of them. Here, the sharing is non-trivial, depending both on the coupling parameter and the distance between the plates. We thus introduce a counterion occupation parameter, that is determined variationally to ensure minimum of the free energy. The resulting analytical results for the pressure as a function of the plate-plate distance $d$ agree well with our Monte Carlo data, in a large interval of strong and intermediate coupling constants $Ξ$. We show in particular that within this description, there exists a range of large distances at which the attractive pressure features a $1/d^2$ behavior.
title A strong-coupling effective-field theory for asymmetrically charged plates with counterions only
topic Soft Condensed Matter
Statistical Mechanics
url https://arxiv.org/abs/2501.06153