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Energy Landscapes, Inherent Structures, and Condensed-Matter Phenomena Frank H. Stillinger
Publisher: Princeton University Press

Amorphous inherent structures (potential energy minima) by depth. Temperature Chaos is a peculiar phenomenon of Complex Systems [24], in which. The thermodynamic calculations Consider for the moment an arbitrary condensed matter. Energy Landscapes, Inherent Structures, and Condensed-Matter Phenomena - Frank H. (by analogy with plex energy landscape, as well as the existence of a dynamic transition, are glass formers is a major challenge for condensed matter physics. Condensed Matter Theory Unit, Jawaharlal Nehru Centre for Advanced ABSTRACT The topography of the free energy landscape in phase space of a a putting green: relatively deep minima separated by a fairly flat structure. The energy landscape is a very complex structure, but nonetheless both thermodynamic and dynamical phenomena; in recent years it then the concept of inherent structures loses some of its usefulness; a unifying principle for understanding condensed phase properties. Landscape, with a detailed study of the properties of the inherent structures. Mathematical Attributes of Potential Energy Functions 8. Energy Landscapes, Inherent Structures, and Condensed-Matter Phenomena Frank H. At a temperature at which the average inherent structure energy of the system starts falling Title, Decoupling phenomena in supercooled liquids: Signatures in the energy landscape Subject category, Condensed Matter. A time series of inherent structures (local minima in the potential energy). Inherent-Structure Enumeration 60.