%0 Journal Article %1 Li2011Percolation %A Li, Daqing %A Li, Guanliang %A Kosmidis, Kosmas %A Stanley, H. E. %A Bunde, Armin %A Havlin, Shlomo %D 2011 %J EPL (Europhysics Letters) %K spatial\_correlations percolation critical-phenomena lattice-models %P 68004+ %R 10.1209/0295-5075/93/68004 %T Percolation of spatially constraint networks %U http://dx.doi.org/10.1209/0295-5075/93/68004 %X We study how spatial constraints are reflected in the percolation properties of networks embedded in one-dimensional chains and two-dimensional lattices. We assume long-range connections between sites on the lattice where two sites at distance r are chosen to be linked with probability p ( r )\~ r −δ . Similar distributions have been found in spatially embedded real networks such as social and airline networks. We find that for networks embedded in two dimensions, with 2<δ<4, the percolation properties show new intermediate behavior different from mean field, with critical exponents that depend on δ. For δ<2, the percolation transition belongs to the universality class of percolation in Erdös-Rényi networks (mean field), while for δ>4 it belongs to the universality class of percolation in regular lattices. For networks embedded in one dimension, we find that, for δ<1, the percolation transition is mean field. For 1<δ<2, the critical exponents depend on δ, while for δ>2 there is no percolation transition as in regular linear chains.

@article{Li2011Percolation, abstract = {{We study how spatial constraints are reflected in the percolation properties of networks embedded in one-dimensional chains and two-dimensional lattices. We assume long-range connections between sites on the lattice where two sites at distance r are chosen to be linked with probability p ( r )\~{} r −δ . Similar distributions have been found in spatially embedded real networks such as social and airline networks. We find that for networks embedded in two dimensions, with 2<δ<4, the percolation properties show new intermediate behavior different from mean field, with critical exponents that depend on δ. For δ<2, the percolation transition belongs to the universality class of percolation in Erd\"{o}s-R\'{e}nyi networks (mean field), while for δ>4 it belongs to the universality class of percolation in regular lattices. For networks embedded in one dimension, we find that, for δ<1, the percolation transition is mean field. For 1<δ<2, the critical exponents depend on δ, while for δ>2 there is no percolation transition as in regular linear chains.}}, added-at = {2019-06-10T14:53:09.000+0200}, author = {Li, Daqing and Li, Guanliang and Kosmidis, Kosmas and Stanley, H. E. and Bunde, Armin and Havlin, Shlomo}, biburl = {https://www.bibsonomy.org/bibtex/2b72274a0a21486b8734f824ad937ec9a/nonancourt}, citeulike-article-id = {9060826}, citeulike-linkout-0 = {http://dx.doi.org/10.1209/0295-5075/93/68004}, day = 01, doi = {10.1209/0295-5075/93/68004}, interhash = {06ae1c985e18dad1a5a10bf7cc8e719f}, intrahash = {b72274a0a21486b8734f824ad937ec9a}, journal = {EPL (Europhysics Letters)}, keywords = {spatial\_correlations percolation critical-phenomena lattice-models}, month = mar, pages = {68004+}, posted-at = {2011-03-25 09:44:52}, priority = {2}, timestamp = {2019-08-01T15:36:09.000+0200}, title = {{Percolation of spatially constraint networks}}, url = {http://dx.doi.org/10.1209/0295-5075/93/68004}, year = 2011 }