Brownian Ratchets: From Statistical Physics to Bio and Nano-motors

Hardback

Main Details

Title Brownian Ratchets: From Statistical Physics to Bio and Nano-motors
Authors and Contributors      By (author) David Cubero
By (author) Ferruccio Renzoni
Physical Properties
Format:Hardback
Pages:200
Dimensions(mm): Height 205,Width 186
Category/GenreApplied physics
ISBN/Barcode 9781107063525
ClassificationsDewey:530.475
Audience
Professional & Vocational
Illustrations 27 Halftones, unspecified; 41 Line drawings, unspecified

Publishing Details

Publisher Cambridge University Press
Imprint Cambridge University Press
Publication Date 11 January 2016
Publication Country United Kingdom

Description

Illustrating the development of Brownian ratchets, from their foundations, to their role in the description of life at the molecular scale and in the design of artificial nano-machinery, this text will appeal to both advanced graduates and researchers entering the field. Providing a self-contained introduction to Brownian ratchets, devices which rectify microscopic fluctuations, Part I avoids technicalities and sets out the broad range of physical systems where the concept of ratchets is relevant. Part II supplies a single source for a complete and modern theoretical analysis of ratchets in regimes such as classical vs quantum and stochastic vs deterministic, and in Part III readers are guided through experimental developments in different physical systems, each highlighting a specific unique feature of ratchets. The thorough and systematic approach to the topic ensures that this book provides a complete guide to Brownian ratchets for newcomers and established researchers in physics, biology and biochemistry.

Author Biography

David Cubero is an associate professor at the University of Seville, specializing in the area of nonequilibrium statistical physics. He did pioneering work in relativistic and transport theory of statistical physics, and in the theory of driven systems. Ferruccio Renzoni is Professor of Physics at University College London. He pioneered the field of driven ratchets for cold atoms, and carried out seminal experiments with quasiperiodically driven systems.