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Title
Physics of liquid matter / Paola Gallo, Mauro Rovere.
ISBN
9783030683498 (electronic bk.)
3030683494 (electronic bk.)
3030683486
9783030683481
Publication Details
Cham : Springer, 2021.
Language
English
Description
1 online resource
Item Number
10.1007/978-3-030-68349-8 doi
Call Number
TA357
Dewey Decimal Classification
632/.05
Summary
This book offers a didactic and a self-contained treatment of the physics of liquid and flowing matter with a statistical mechanics approach. Experimental and theoretical methods that were developed to study fluids are now frequently applied to a number of more complex systems generically referred to as soft matter. As for simple liquids, also for complex fluids it is important to understand how their macroscopic behavior is determined by the interactions between the component units. Moreover, in recent years new and relevant insights have emerged from the study of anomalous phases and metastable states of matter. In addition to the traditional topics concerning fluids in normal conditions, the authors of this book discuss recent developments in the field of disordered systems in condensed and soft matter. In particular they emphasize computer simulation techniques that are used in the study of soft matter and the theories and study of slow glassy dynamics. For these reasons the book includes a specific chapter about metastability, supercooled liquids and glass transition. The book is written for graduate students and active researchers in the field.
Bibliography, etc. Note
Includes bibliographical references and index.
Access Note
Access limited to authorized users.
Digital File Characteristics
text file
PDF
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed July 23, 2021).
Series
Soft and biological matter, 2213-1736
Chapter 1: An introduction to the liquid state of matter
Chapter 2: Thermodynamics and statistical mechanics of fluid states
Chapter 3: Microscopic forces and structure of Liquids
Chapter 4: Theoretical studies of the structure of Liquids.-Chapter 5: Methods of computer simulation
Chapter 6: Dynamical correlation functions and linear response theory for fluids
Chapter 7: Dynamics of liquids
Chapter 8: Supercooled liquids, Glass transition and Mode Coupling Theory
Chapter 9: Supercooled Water.