Elasticity of a freely jointed chain with quenched disorder

Minsu Yi; Panayotis Benetatos

doi:10.1088/1742-5468/ade86b

Elasticity of a freely jointed chain with quenched disorder

Minsu Yi
, Panayotis Benetatos

Kyungpook National University

Research output: Contribution to journal › Article › peer-review

Abstract

We introduce a simple theoretical model, the Freely Jointed Chain with quenched hinges (qFJC), which captures the quenched disorder in the local bending stiffness of the polymer. In this article, we analyze the tensile elasticity of the qFJC in the Gibbs (fixed-force) ensemble. For finite-size systems, we obtain a recurrence relation of the exact free energy, which allows us to calculate the exact force-extension relation numerically for an arbitrary size of the system. In the thermodynamic limit, when L ( contour length ) ≫ Lp ( persistence length ) , we obtain a framework to deal with quenched disorder in the polymer configuration. This allows us to obtain the response function for the discrete and continuous qFJC in the thermodynamic limit. It turns out that the extension of the continuous qFJC can be cast in a simple form. Furthermore, we have applied our analysis to rod-coil multiblock copolymers.

Original language	English
Article number	073501
Journal	Journal of Statistical Mechanics: Theory and Experiment
Volume	2025
Issue number	7
DOIs	https://doi.org/10.1088/1742-5468/ade86b
State	Published - 1 Jul 2025

Keywords

elasticity
mechanical properties (DNA, RNA, membranes, bio-polymers)
polymers
random/ordered microstructure

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10.1088/1742-5468/ade86b

Cite this

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title = "Elasticity of a freely jointed chain with quenched disorder",

abstract = "We introduce a simple theoretical model, the Freely Jointed Chain with quenched hinges (qFJC), which captures the quenched disorder in the local bending stiffness of the polymer. In this article, we analyze the tensile elasticity of the qFJC in the Gibbs (fixed-force) ensemble. For finite-size systems, we obtain a recurrence relation of the exact free energy, which allows us to calculate the exact force-extension relation numerically for an arbitrary size of the system. In the thermodynamic limit, when L ( contour length ) ≫ Lp ( persistence length ) , we obtain a framework to deal with quenched disorder in the polymer configuration. This allows us to obtain the response function for the discrete and continuous qFJC in the thermodynamic limit. It turns out that the extension of the continuous qFJC can be cast in a simple form. Furthermore, we have applied our analysis to rod-coil multiblock copolymers.",

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AU - Benetatos, Panayotis

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N2 - We introduce a simple theoretical model, the Freely Jointed Chain with quenched hinges (qFJC), which captures the quenched disorder in the local bending stiffness of the polymer. In this article, we analyze the tensile elasticity of the qFJC in the Gibbs (fixed-force) ensemble. For finite-size systems, we obtain a recurrence relation of the exact free energy, which allows us to calculate the exact force-extension relation numerically for an arbitrary size of the system. In the thermodynamic limit, when L ( contour length ) ≫ Lp ( persistence length ) , we obtain a framework to deal with quenched disorder in the polymer configuration. This allows us to obtain the response function for the discrete and continuous qFJC in the thermodynamic limit. It turns out that the extension of the continuous qFJC can be cast in a simple form. Furthermore, we have applied our analysis to rod-coil multiblock copolymers.

AB - We introduce a simple theoretical model, the Freely Jointed Chain with quenched hinges (qFJC), which captures the quenched disorder in the local bending stiffness of the polymer. In this article, we analyze the tensile elasticity of the qFJC in the Gibbs (fixed-force) ensemble. For finite-size systems, we obtain a recurrence relation of the exact free energy, which allows us to calculate the exact force-extension relation numerically for an arbitrary size of the system. In the thermodynamic limit, when L ( contour length ) ≫ Lp ( persistence length ) , we obtain a framework to deal with quenched disorder in the polymer configuration. This allows us to obtain the response function for the discrete and continuous qFJC in the thermodynamic limit. It turns out that the extension of the continuous qFJC can be cast in a simple form. Furthermore, we have applied our analysis to rod-coil multiblock copolymers.

KW - elasticity

KW - mechanical properties (DNA, RNA, membranes, bio-polymers)

KW - polymers

KW - random/ordered microstructure

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JO - Journal of Statistical Mechanics: Theory and Experiment

JF - Journal of Statistical Mechanics: Theory and Experiment

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ER -

Elasticity of a freely jointed chain with quenched disorder

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