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Brownian dynamics at boundaries and interfaces : in physics, chemistry, and biology

著者: Zeev Schuss
出版: New York : Springer, [2013] ©2013
シリーズ: Applied mathematical sciences (Springer-Verlag New York Inc.), volume 186.
エディション/フォーマット:   電子書籍 : Document : Englishすべてのエディションとフォーマットを見る
データベース:WorldCat
概要:
Brownian dynamics serve as mathematical models for the diffusive motion of microscopic particles of various shapes in gaseous, liquid, or solid environments. The renewed interest in Brownian dynamics is due primarily to their key role in molecular and cellular biophysics: diffusion of ions and molecules is the driver of all life. Brownian dynamics simulations are the numerical realizations of stochastic differential  続きを読む
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ジャンル/形式: Electronic books
その他のフォーマット: Printed edition:
資料の種類: Document, インターネット資料
ドキュメントの種類: インターネットリソース, コンピューターファイル
すべての著者/寄与者: Zeev Schuss
ISBN: 9781461476870 1461476879 1461476860 9781461476863
OCLC No.: 858924139
物理形態: 1 online resource (xx, 322 pages) : illustrations (some color)
コンテンツ: The mathematical Brownian motion --
Euler simulation of Ito SDEs --
Simulation of the overdamped Langevin equation --
The first passage time of a diffusion process --
Chemical reaction in microdomains --
The stochastic separatrix --
Narrow escape in R² --
Narrow escape in R³.
シリーズタイトル: Applied mathematical sciences (Springer-Verlag New York Inc.), volume 186.
責任者: Zeev Schuss.

概要:

Brownian dynamics serve as mathematical models for the diffusive motion of microscopic particles of various shapes in gaseous, liquid, or solid environments. The renewed interest in Brownian dynamics is due primarily to their key role in molecular and cellular biophysics: diffusion of ions and molecules is the driver of all life. Brownian dynamics simulations are the numerical realizations of stochastic differential equations that model the functions of biological micro devices such as protein ionic channels of biological membranes, cardiac myocytes, neuronal synapses, and many more. Stochastic differential equations are ubiquitous models in computational physics, chemistry, biophysics, computer science, communications theory, mathematical finance theory, and many other disciplines. Brownian dynamics simulations of the random motion of particles, be it molecules or stock prices, give rise to mathematical problems that neither the kinetic theory of Maxwell and Boltzmann, nor Einstein's and Langevin's theories of Brownian motion could predict. This book takes the readers on a journey that starts with the rigorous definition of mathematical Brownian motion, and ends with the explicit solution of a series of complex problems that have immediate applications. It is aimed at applied mathematicians, physicists, theoretical chemists, and physiologists who are interested in modeling, analysis, and simulation of micro devices of microbiology. The book contains exercises and worked out examples throughout.

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