Trifce Sandev, Alexander Iomin, Holger Kantz
Published 2014-10-22Version 1
A grid comb model is a generalization of the well known comb model, and it consists of $N$ backbones. For $N=1$ the system reduces to the comb model where subdiffusion takes place with the transport exponent $1/2$. We present an exact analytical evaluation of the transport exponent of anomalous diffusion for finite and infinite number of backbones. We show that for an arbitrarily large but finite number of backbones the transport exponent does not change. Contrary to that, for an infinite number of backbones, the transport exponent depends on the fractal dimension of the backbone structure.
On Fractional Diffusion and its Relation with Continuous Time Random Walks
Infinite number of solvable generalizations of XY-chain, with cluster state, and with central charge c=m/2
Continuous time random walk, Mittag-Leffler waiting time and fractional diffusion: mathematical aspects
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