Topological coarse graining of polymer chains using wavelet-accelerated Monte Carlo. II. Self-avoiding chains - art. no. 234902

Ismail AE; Stephanopoulos G; Rutledge GC

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Topological coarse graining of polymer chains using wavelet-accelerated Monte Carlo. II. Self-avoiding chains - art. no. 234902

机译：使用小波加速的蒙特卡洛方法对聚合物链进行拓扑粗化处理。二。自我规避的链条-艺术。没有。 234902

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In the preceding paper [A. E. Ismail, G. C. Rutledge, and G. Stephanopoulos J. Chem. Phys. (in press)] we introduced wavelet-accelerated Monte Carlo (WAMC), a coarse-graining methodology based on the wavelet transform, as a method for sampling polymer chains. In the present paper, we extend our analysis to consider excluded-volume effects by studying self-avoiding chains. We provide evidence that the coarse-grained potentials developed using the WAMC method obey phenomenological scaling laws, and use simple physical arguments for freely jointed chains to motivate these laws. We show that coarse-grained self-avoiding random walks can reproduce results obtained from simulations of the original, more-detailed chains to a high degree of accuracy, in orders of magnitude less time. (C) 2005 American Institute of Physics.

机译：在先前的论文中[A. E.Ismail，G.C.Rutledge和G.Stephanopoulos J.Chem。物理（印刷中）]我们引入了小波加速蒙特卡洛（WAMC），这是一种基于小波变换的粗粒度方法，它是一种对聚合物链进行采样的方法。在本文中，我们通过研究自我规避链扩展了我们的分析范围，以考虑排他性影响。我们提供的证据表明，使用WAMC方法开发的粗粒度电势遵循现象学的标度定律，并对自由连接的链使用简单的物理参数来激发这些定律。我们表明，粗粒度的自我规避随机游走可以在更短的数量级时间内，以高精确度再现从原始的，更详细的链的仿真中获得的结果。（C）2005美国物理研究所。

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《The Journal of Chemical Physics》 |2005年第23期|共1页
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Ismail AE; Stephanopoulos G; Rutledge GC;
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DISSIPATIVE PARTICLE DYNAMICS; BOND FLUCTUATION MODEL; SOFT ELLIPSOID MODEL; MULTIRESOLUTION ANALYSIS; STATISTICAL-MECHANICS; COMPUTER-SIMULATIONS; PIVOT ALGORITHM; MELTS; LATTICE; MIXTURES;

机译：耗散粒子动力学;债券波动模型;软椭球模型;多分辨分析;统计力学;计算机模拟;皮沃特算法;熔体;晶格;混合物;

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1. Topological coarse graining of polymer chains using wavelet-accelerated Monte Carlo. II. Self-avoiding chains - art. no. 234902 [J] . Ismail AE, Stephanopoulos G, Rutledge GC The Journal of Chemical Physics . 2005,第23期

机译：使用小波加速的蒙特卡洛方法对聚合物链进行拓扑粗化处理。二。自我规避的链条-艺术。没有。 234902
2. Topological coarse graining of polymer chains using wavelet-accelerated Monte Carlo. II. Self-avoiding chains - art. no. 234902 [J] . Ismail AE, Stephanopoulos G, Rutledge GC The Journal of Chemical Physics . 2005,第23期

机译：使用小波加速的蒙特卡洛方法对聚合物链进行拓扑粗化处理。二。自我规避的链条-艺术。没有。 234902
3. Topological coarse graining of polymer chains using wavelet-accelerated Monte Carlo. I. Freely jointed chains - art. no. 234901 [J] . Ismail AE, Rutledge GC, Stephanopoulos G The Journal of Chemical Physics . 2005,第23期

机译：使用小波加速的蒙特卡洛方法对聚合物链进行拓扑粗化处理。一，自由连接的链条-艺术。没有。 234901
4. Diffusion Wavelet Decomposition for Coarse-Graining of Polymer Chains [C] . B. Christopher Rinderspacher, Jaydeep P. Bardhan, Ahmed E. Ismail Materials Research Society Meeting . 2014

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5. Coarse graining solvent polymer interactions in bead spring chain models. [D] . Radhakrishnan, Rangarajan. 2013

机译：珠粒弹簧链模型中的粗粒化溶剂聚合物相互作用。
6. Molecular Renormalization Group Coarse-Graining of Polymer Chains: Application to Double-Stranded DNA [O] . Alexey Savelyev, Garegin A. Papoian 2009

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7. Multiresolution Modeling of Semidilute Polymer Solutions: Coarse-Graining Using Wavelet-Accelerated Monte Carlo [O] . Animesh Agarwal, Brooks D. Rabideau, Ahmed E. Ismail 2017

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Topological coarse graining of polymer chains using wavelet-accelerated Monte Carlo. II. Self-avoiding chains - art. no. 234902

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