Phase transition with nonthermodynamic states in reversible polymerization

E. Ben‐Naim, P. L. Krapivsky

Type: Article

Publication Date: 2008-06-24

Citations: 21

DOI: https://doi.org/10.1103/physreve.77.061132

Abstract

We investigate a reversible polymerization process in which individual polymers aggregate and fragment at a rate proportional to their molecular weight. We find a nonequilibrium phase transition despite the fact that the dynamics are perfectly reversible. When the strength of the fragmentation process exceeds a critical threshold, the system reaches a thermodynamic steady state where the total number of polymers is proportional to the system size. The polymer length distribution has a sharp exponential tail in this case. When the strength of the fragmentation process falls below the critical threshold, the steady state becomes nonthermodynamic as the total number of polymers grows sublinearly with the system size. Moreover, the length distribution has an algebraic tail and the characteristic exponent varies continuously with the fragmentation rate.

Locations

Physical Review E - View
arXiv (Cornell University) - View - PDF
PubMed - View
DataCite API - View

Similar Works

Action	Title	Year	Authors
+	Subcritical asymptotic behavior in the thermodynamic limit of reversible random polymerization processes	1995	Han Dong
+	The asymptotic behavior in a reversible random coagulation-fragmentation polymerization process with sub-exponential decay	2017	Siqun Dong Dianli Zhao
+ PDF Chat	Non-Markovian polymer reaction kinetics	2012	Thomas Guérin O. Bénichou Raphaël Voituriez
+ PDF Chat	Nonequilibrium Phase Transition in a Model of Diffusion, Aggregation and Fragmentation	2000	Satya N. Majumdar Supriya Krishnamurthy Mustansir Barma
+	A necessary and sufficient condition for gelation of a reversible Markov process of polymerization	2003	Han Dong
+	Self-Consistent Model of Polymerization-Induced Phase Separation	1996	Valeriy V. Ginzburg Noel A. Clark
+	Self-Consistent Model of Polymerization-Induced Phase Separation	1996	Valeriy V. Ginzburg Noel A. Clark
+ PDF Chat	Analytic Solution for the Linear Rheology of Living Polymers	2024	Vickie Chen Charles T. Drucker Claire Love J. Andrew Peterson Joseph Peterson
+ PDF Chat	Polymer chain in a quenched random medium: slow dynamics and ergodicity breaking.	2003	G. Migliorini V.G. Rostiashvili Thomas A. Vilgis
+ PDF Chat	Polymer chain in a quenched random medium: slow dynamics and ergodicity breaking	2003	G. Migliorini V.G. Rostiashvili Thomas A. Vilgis
+ PDF Chat	Why polymer chains in a melt are not random walks.	2007	J. P. Wittmer P. Beckrich A. Johner A. N. Semenov S. Obukhov H. Meyer J. Baschnagel
+	Static and dynamical critical behavior of the monomer–monomer reaction model with desorption	2016	E. C. da Costa Flávio Roberto Rusch
+ PDF Chat	Thermodynamically reversible generalization of diffusion limited aggregation	1999	Raissa M. D’Souza Norman Margolus
+	THE NEAR-CRITICAL AND SUPER-CRITICAL ASYMPTOTIC BEHAVIOR IN THE THERMODYNAMIC LIMIT OF REVERSIBLE RANDOM POLYMERIZATION PROCESSES	2000	Han Dong
+ PDF Chat	Dynamics of living polymers	2003	B. O Shaughnessy Dimitrios Vavylonis
+ PDF Chat	Mesoscopic non-equilibrium thermodynamics approach to the dynamics of polymers	2001	J. M. Rubı́ A. Pérez-Madrid
+	Numerical analysis of phase transitions in a random copolymer	1998	A. M. Moskalenko Yuri A. Kuznetsov Kenneth A. Dawson
+ PDF Chat	Absorbing state phase transitions with a non-accessible vacuum	2006	Omar Al Hammal Juan A. Bonachela Miguel A. Muñoz
+ PDF Chat	Microscopic dynamics of a phase transition: equilibrium vs out-of-equilibrium regime	2001	Vito Latora Andrea Rapisarda
+	Formation of Dissipative Structures in Microscopic Models of Mixtures with Species Interconversion	2022	Thomas J. Longo Nikolay A. Shumovskyi Betül Uralcan Sergey V. Buldyrev М. А. Анисимов Pablo G. Debenedetti

Works That Cite This (19)

Action	Title	Year	Authors
+ PDF Chat	Jamming and tiling in aggregation of rectangles	2018	Daniel Ben-Naim E. Ben‐Naim P. L. Krapivsky
+	Kinetics of catalytically activated aggregation—fragmentation process	2011	Yan Gao Haifeng Wang Lin Zhen-Quan Xinying Xue
+	Evolution behavior of catalytically activated replication—decline in a coagulation process	2013	Yan Gao Haifeng Wang Jidong Zhang Yang Xia Maozhu Sun Lin Zhen-Quan
+	Simple evolving random graphs	2024	P. L. Krapivsky
+ PDF Chat	Traffic-flow cellular automaton: Order parameter and its conjugated field	2009	André M. C. Souza L. C. Q. Vilar
+	Kinetics of catalytically activated duplication in aggregation growth	2009	Wang Haifeng Lin Zhen-Quan Yan Gao Chao Xu
+ PDF Chat	Hopf bifurcation in addition-shattering kinetics	2021	Stanislav Budzinskiy С. А. Матвеев P. L. Krapivsky
+ PDF Chat	Oscillations in Aggregation-Shattering Processes	2017	С. А. Матвеев P. L. Krapivsky А. П. Смирнов Е. Е. Тыртышников Nikolai V. Brilliantov
+ PDF Chat	Kinetics of ring formation	2011	E. Ben‐Naim P. L. Krapivsky
+ PDF Chat	Aggregation-fragmentation-diffusion model for trail dynamics	2017	Kyle Kawagoe Greg Huber Marc Pradas Michael Wilkinson Alain Pumir E. Ben‐Naim

Works Cited by This (22)

Action	Title	Year	Authors
+ PDF Chat	Nonequilibrium Phase Transitions in Models of Aggregation, Adsorption, and Dissociation	1998	Satya N. Majumdar Supriya Krishnamurthy Mustansir Barma
+ PDF Chat	Solution of an infection model near threshold	2007	David A. Kessler Nadav M. Shnerb
+ PDF Chat	Stationary Kolmogorov solutions of the Smoluchowski aggregation equation with a source term	2004	Colm Connaughton R. Rajesh Oleg Zaboronski
+ PDF Chat	Stationary States and Energy Cascades in Inelastic Gases	2005	E. Ben‐Naim Jonathan Machta
+ PDF Chat	Non-equilibrium critical phenomena and phase transitions into absorbing states	2000	Haye Hinrichsen
+ PDF Chat	Size of outbreaks near the epidemic threshold	2004	E. Ben‐Naim P. L. Krapivsky
+ PDF Chat	Exact phase diagram of a model with aggregation and chipping	2001	R. Rajesh Satya N. Majumdar
+ PDF Chat	Deterministic and Stochastic Models for Coalescence (Aggregation and Coagulation): A Review of the Mean-Field Theory for Probabilists	1999	David Aldous
+	New universality class for gelation in a system with particle breakup	1988	R. Dennis Vigil Robert M. Ziff Binglin Lu
+	Steady-state distribution of generalized aggregation system with injection	1989	Hideki Takayasu