Abstract
We present an analytical and numerical study of the paths of self avoiding walks (SAWs) on random networks. Since these walks do not retrace their paths, they effectively delete the nodes they visit, together with their links, thus pruning the network. The walkers hop between neighboring nodes, until they reach a dead-end node from which they cannot proceed. Focusing on Erdős–Rényi networks we show that the pruned networks maintain a Poisson degree distribution, , with an average degree, , that decreases linearly in time. We enumerate the SAW paths of any given length and find that the number of paths, , increases dramatically as a function of . We also obtain analytical results for the path-length distribution, , of the SAW paths which are actually pursued, starting from a random initial node. It turns out that follows the Gompertz distribution, which means that the termination probability of an SAW path increases with its length.
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