Energy landscapes, supergraphs, and "folding funnels" in spin systems

A. Gutin; A. Sali; C. J. Camacho; D. J. Wales; D. K. Klimov; F. H. Stillinger; F. H. Stillinger; H. S. Chan; H. S. Chan; H. S. Chan; J. D. Bryngelson; J. D. Bryngelson; J. D. Bryngelson; K. A. Dill; M. Cieplak; M. Cieplak; M. Cieplak; M. Cieplak; M. Cieplak; M. Cieplak; Marek Cieplak; N. D. Socci; O. M. Becker; P. E. Leopold; P. G. Wolynes; Piotr Garstecki; R. Miller; Trinh Xuan Hoang

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Energy landscapes, supergraphs, and "folding funnels" in spin systems

Authors: A. Gutin
A. Sali
C. J. Camacho
D. J. Wales
D. K. Klimov
F. H. Stillinger
F. H. Stillinger
H. S. Chan
H. S. Chan
H. S. Chan
J. D. Bryngelson
J. D. Bryngelson
J. D. Bryngelson
K. A. Dill
M. Cieplak
M. Cieplak
M. Cieplak
M. Cieplak
M. Cieplak
M. Cieplak
Marek Cieplak
N. D. Socci
O. M. Becker
P. E. Leopold
P. G. Wolynes
Piotr Garstecki
R. Miller
Trinh Xuan Hoang
Publication date: 20 August 1999
Publisher: 'American Physical Society (APS)'
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Abstract

Dynamical connectivity graphs, which describe dynamical transition rates between local energy minima of a system, can be displayed against the background of a disconnectivity graph which represents the energy landscape of the system. The resulting supergraph describes both dynamics and statics of the system in a unified coarse-grained sense. We give examples of the supergraphs for several two dimensional spin and protein-related systems. We demonstrate that disordered ferromagnets have supergraphs akin to those of model proteins whereas spin glasses behave like random sequences of aminoacids which fold badly.Comment: REVTeX, 9 pages, two-column, 13 EPS figures include

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