The bond-percolation properties of the recently introduced Hanoi networks are analyzed with the renormalization group. Unlike scale-free networks, these networks are meant to provide an analytically tractable interpolation between finite-dimensional, lattice-based models and their mean-field limits. In percolation, the hierarchical small-world bonds in the Hanoi networks impose order by uniting otherwise disconnected, local clusters. This "patchy" order results in merely a finite probability to obtain a spanning cluster for certain ranges of the bond probability, unlike the usual 0-1 transition found on ordinary lattices. The various networks studied here exhibit a range of phase behaviors, depending on the prevalence of those long-range bonds. Fixed points in general exhibit nonuniversal behavior.
[1]
A. Floren,et al.
' " ' " ' " . " ' " " " " " ' " ' " " " " " : ' " 1
,
2001
.
[2]
S. Redner,et al.
Introduction To Percolation Theory
,
2018
.
[3]
R. Rosenfeld.
Nature
,
2009,
Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.
[4]
P. Zweifel.
Advanced Mathematical Methods for Scientists and Engineers
,
1980
.
[5]
Béla Bollobás,et al.
Random Graphs
,
1985
.
[6]
M. Plischke,et al.
Equilibrium statistical physics
,
1988
.
[7]
M. Sahini,et al.
Applications of Percolation Theory
,
2023,
Applied Mathematical Sciences.