Geometric methods in elastic theory of membranes in liquid crystal phases
著者
書誌事項
Geometric methods in elastic theory of membranes in liquid crystal phases
(Peking University-World Scientific advance physics series, v. 2)
World Scientific, c2018
2nd ed
大学図書館所蔵 全3件
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注記
Other authors: Zhongcan Ou-Yang, Jixing Liu, Yuzhang Xie
"This work is ordinally published by Peking University Press in 2014." -- t.p.verso
Includes bibliographical references and index
内容説明・目次
内容説明
'The book is highly recommended as a reference for advanced graduate students and scholars involved in geometric analysis of membranes and other elastic surfaces. Valuable techniques may be learned from the bookaEURO (TM)s model constructions and sequential derivations and presentations of governing equations. Detailed analysis and solutions enable the reader with an increased understanding of the physical characteristics of membranes in liquid crystal phases such as their preferred shapes.'Contemporary PhysicsThis is the second edition of the book Geometric Methods in Elastic Theory of Membranes in Liquid Crystal Phases published by World Scientific in 1999. This book gives a comprehensive treatment of the conditions of mechanical equilibrium and the deformation of membranes as a surface problem in differential geometry. It is aimed at readers engaging in the field of investigation of the shape formation of membranes in liquid crystalline state with differential geometry. The material chosen in this book is mainly limited to analytical results. The main changes in this second edition are: we add a chapter (Chapter 4) to explain how to calculate variational problems on a surface with a free edge by using a new mathematical tool - moving frame method and exterior differential forms - and how to derive the shape equation and boundary conditions for open lipid membranes through this new method. In addition, we include the recent concise work on chiral lipid membranes as a section in Chapter 5, and in Chapter 6 we mention some topics that we have not fully investigated but are also important to geometric theory of membrane elasticity.
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