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Percolation Transitions Are Not Always Sharpened by Making Networks Interdependent
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Abstract
We study a model for coupled networks introduced recently by Buldyrev et al., [Nature
(London) 464, 1025 (2010)], where each node has to be connected to others via two
types of links to be viable. Removing a critical fraction of nodes leads to a percolation
transition that has been claimed to be more abrupt than that for uncoupled networks.
Indeed, it was found to be discontinuous in all cases studied. Using an efficient
new algorithm we verify that the transition is discontinuous for coupled Erdös-Rényi
networks, but find it to be continuous for fully interdependent diluted lattices.
In 2 and 3 dimensions, the order parameter exponent β is larger than in ordinary percolation,
showing that the transition is less sharp, i.e., further from discontinuity, than
for isolated networks. Possible consequences for spatially embedded networks are discussed.
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Most cited references1
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Explosive percolation via control of the largest cluster.
H. Herrmann, Wildo Araujo (2010)
