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W2967904808 abstract "Network geometry is currently a topic of growing scientific interest as it opens the possibility to explore and interpret the interplay between structure and dynamics of complex networks using geometrical arguments. However the field is still in its infancy. In this work we investigate the role of network geometry in determining the nature of the percolation transition in planar hyperbolic manifolds. In Ref. [1], S. Boettcher, V. Singh, R. M. Ziff have shown that a special type of two-dimensional hyperbolic manifolds, the Farey graphs, display a discontinuous transition for ordinary link percolation. Here using the renormalization group we investigate the critical properties of link percolation on a wider class of two-dimensional hyperbolic deterministic and random manifolds constituting the skeletons of two-dimensional cell complexes. These hyperbolic manifolds are built iteratively by subsequently gluing $m$-polygons to single edges. We show that when the size $m$ of the polygons is drawn from a distribution $q_m$ with asymptotic power-law scaling $q_msimeq Cm^{-gamma}$ for $mgg1$, different universality classes can be observed for different values of the power-law exponent $gamma$. Interestingly the percolation transition is hybrid for $gammain (3,4)$ and becomes continuous for $gamma in (2,3]$" @default.
W2967904808 created "2019-08-22" @default.
W2967904808 creator A5022368086 @default.
W2967904808 creator A5028755742 @default.
W2967904808 creator A5055114207 @default.
W2967904808 date "2019-08-13" @default.
W2967904808 modified "2023-09-23" @default.
W2967904808 title "Renormalization group for link percolation on planar hyperbolic manifolds" @default.
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W2967904808 doi "https://doi.org/10.1103/physreve.100.022306" @default.
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