H
H. Eugene Stanley
Researcher at Boston University
Publications - 1208
Citations - 134813
H. Eugene Stanley is an academic researcher from Boston University. The author has contributed to research in topics: Complex network & Phase transition. The author has an hindex of 154, co-authored 1190 publications receiving 122321 citations. Previous affiliations of H. Eugene Stanley include University of North Carolina at Chapel Hill & Wesleyan University.
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Traveling time and traveling length in critical percolation clusters.
Youngki Lee,José S. Andrade,Sergey V. Buldyrev,Nikolay V. Dokholyan,Shlomo Havlin,Peter King,Peter King,Gerald Paul,H. Eugene Stanley +8 more
TL;DR: Traveling time and traveling length for tracer dispersion in two-dimensional bond percolation in modeling flow by tracer particles driven by a pressure difference between two points separated by Euclidean distance r are studied.
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Optimal path and minimal spanning trees in random weighted networks
Lidia A. Braunstein,Lidia A. Braunstein,Zhenhua Wu,Yiping Chen,Sergey V. Buldyrev,Sergey V. Buldyrev,Tomer Kalisky,Sameet Sreenivasan,Reuven Cohen,Reuven Cohen,Eduardo López,Eduardo López,Shlomo Havlin,Shlomo Havlin,H. Eugene Stanley +14 more
TL;DR: It is shown that the minimum spanning tree (MST) in the strong disorder limit is composed of percolation clusters, which the authors regard as "super-nodes", interconnected by a scale-free tree.
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To What Class of Fractals Does the Alexander-Orbach Conjecture Apply?
TL;DR: In this paper, the decouverte numerique recente d'Alexander et Orbach selon laquelle, pour un agregat infini naissant en percolation le rapport d f f /d w (dimension "fractale" de l'agregat/dimension ''fractal" d'une marche aleatoire dans l'aggregat) est approximativement independant de d pour d>1.
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Scaling studies of percolation phenomena in systems of dimensionality two to seven: Cluster numbers
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Suppressing epidemic spreading in multiplex networks with social-support
Xiaolong Chen,Ruijie Wang,Ming Tang,Ming Tang,Shi-Min Cai,H. Eugene Stanley,Lidia A. Braunstein,Lidia A. Braunstein +7 more
TL;DR: This work studies the dynamics of disease spreading in social-contact multiplex networks when the recovery of infected nodes depends on resources from healthy neighbors in the social layer and finds that degree heterogeneity promotes disease spreading.