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政大機構典藏 > 理學院 > 應用數學系 > 學位論文 > Item 140.119/131107

Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/131107

Title:	在高維度下受波氏分配自我相斥隨機漫步的均場行為 Mean-field behavior for self-avoiding walks with Poisson interactions in high dimensions
Authors:	王守朋 Wang, Shou-Peng
Contributors:	陳隆奇 CHEN, LUNG-CHI 王守朋 Wang, Shou-Peng
Keywords:	雖機漫步 self-avoiding walk
Date:	2020
Issue Date:	2020-08-03 17:57:38 (UTC+8)
Abstract:	self-avoiding walk是線性聚合物的模型。它是機率和統計力學中一個重要而有趣的模型。一些重要問題已經解決(c.f.[5]). 然而，許多重要問題仍未解決，特別是涉及關鍵指數的問題，尤其是遠程模型的關鍵指數。在本文中，我們獲得了對於一個特殊的長域模型，其單步分佈是波松分佈的特殊敏感度模型，其敏感性指數滿足均值場行為，且其值大於上臨界值d(c) = 4 。參數 lambda > lambda(d) 的類型分佈，其中lambda(d)取決於維度。為此，我們選擇一組特殊的 bootstrapping functions，它們類似於[4]，並使用lace expansion分析有關bootstrapping functions的複雜部分。此外，對於d>4，我們得到lambda(d)的確切值。 Self-avoiding walk is a model for linear polymers. It is an important and interesting model in Probability and Statistical mechanics. Some of the important problems had been solved (c.f.[5]). However, many of the important problems remain unsolved, particularly those involving critical exponents, especially the critical exponents for long-range models. In this thesis, we see Lace expansion to obtain that the critical exponent of the susceptibility satisfies the mean-field behavior with the dimensions above the upper critical dimension (d(c) = 4) for a special loge-range model in which each one-step distribution is the Poisson-type distribution with parameter lambda > lambda(d) where lambda(d) depends on the dimensions. To achieve this, we choose a particular set of bootstrapping functions which is similar as [4] and using a notoriously complicated part of the lace expansion analysis. Moreover we get the exactly value of lambda(d) for d > 4.
Reference:	[1] Roland Bauerschmidt, Hugo DuminilCopin, Jesse Goodman, and Gordon Slade. Lectures on selfavoiding walks, 2012. [2] David Brydges and Thomas Spencer. Selfavoiding walk in 5 or more dimensions. Communications in Mathematical Physics, 97(1):125–148, Mar 1985. [3] LungChi Chen and Akira Sakai. Critical twopoint function for longrange models with powerlaw couplings: The marginal case for $${d\\ge d_{\\rm c}}$$d≥dc. Communications in Mathematical Physics, 372(2):543–572, 2019. [4] Satoshi Handa, Yoshinori Kamijima, and Akira Sakai. A survey on the lace expansion for the nearestneighbor models on the bcc lattice. To appear in Taiwanese Journal of Mathematics, 2019. [5] Takashi Hara and Gordon Slade. Selfavoiding walk in five or more dimensions. i. the critical behaviour. Comm. Math. Phys., 147(1):101–136, 1992. [6] Takashi Hara, Remco van der Hofstad, and Gordon Slade. Critical twopoint functions and the lace expansion for spreadout highdimensional percolation and related models. Ann. Probab., 31(1):349–408, 01 2003. [7] Markus Heydenreich, Remco van der Hofstad, and Akira Sakai. Meanfield behavior for longand finite range ising model, percolation and selfavoiding walk. Journal of Statistical Physics, 132(6):1001–1049, 2008. [8] N. Madras and G. Slade. The SelfAvoiding Walk. Probability and Its Applications. Birkhäuser Boston, 1996. [9] Yuri Mejia Miranda and Gordon Slade. The growth constants of lattice trees and lattice animals in high dimensions, 2011. [10] A Sakai. Lace expansion for the Ising model. Technical Report mathph/ 0510093, Oct 2005. [11] Akira Sakai. Meanfield critical behavior for the contact process. Journal of Statistical Physics, 104(1):111–143, Jul 2001. [12] Gordon Slade. The lace expansion and its applications, 2005. [13] Remco van der Hofstad, Frank den Hollander, and Gordon Slade. The survival probability for critical spreadout oriented percolation above 4+1 dimensions. ii. expansion. Annales de l’Institut Henri Poincare (B) Probability and Statistics, 43(5):509 – 570, 2007. [14] Doron Zeilberger. The abstract lace expansion, 1998.
Description:	碩士國立政治大學應用數學系 106751002
Source URI:	http://thesis.lib.nccu.edu.tw/record/#G0106751002
Data Type:	thesis
DOI:	10.6814/NCCU202000775
Appears in Collections:	[應用數學系] 學位論文

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