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Energy Landscapes, Inherent Structures, and Condensed-Matter Phenomena

Download or Read eBook Energy Landscapes, Inherent Structures, and Condensed-Matter Phenomena PDF written by Frank H. Stillinger and published by Princeton University Press. This book was released on 2015-11-17 with total page 522 pages. Available in PDF, EPUB and Kindle.
Energy Landscapes, Inherent Structures, and Condensed-Matter Phenomena
Author :
Publisher : Princeton University Press
Total Pages : 522
Release :
ISBN-10 : 9780691166803
ISBN-13 : 0691166803
Rating : 4/5 (03 Downloads)

Book Synopsis Energy Landscapes, Inherent Structures, and Condensed-Matter Phenomena by : Frank H. Stillinger

Book excerpt: This book presents an authoritative and in-depth treatment of potential energy landscape theory, a powerful analytical approach to describing the atomic and molecular interactions in condensed-matter phenomena. Drawing on the latest developments in the computational modeling of many-body systems, Frank Stillinger applies this approach to a diverse range of substances and systems, including crystals, liquids, glasses and other amorphous solids, polymers, and solvent-suspended biomolecules. Stillinger focuses on the topography of the multidimensional potential energy hypersurface created when a large number of atoms or molecules simultaneously interact with one another. He explains how the complex landscape topography separates uniquely into individual "basins," each containing a local potential energy minimum or "inherent structure," and he shows how to identify interbasin transition states—saddle points—that reside in shared basin boundaries. Stillinger describes how inherent structures and their basins can be classified and enumerated by depth, curvatures, and other attributes, and how those enumerations lead logically from vastly complicated multidimensional landscapes to properties observed in the real three-dimensional world. Essential for practitioners and students across a variety of fields, the book illustrates how this approach applies equally to systems whose nuclear motions are intrinsically quantum mechanical or classical, and provides novel strategies for numerical simulation computations directed toward diverse condensed-matter systems.


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