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Paper detail

Diffusion on asymmetric fractal networks

We derive a renormalization method to calculate the spectral dimension $\bar{d}$ of deterministic self-similar networks with arbitrary base units and branching constants. The generality of the method allows the affect of a multitude of microstructural details to be quantitatively investigated. In addition to providing new models for physical networks, the results allow precise tests of theories of diffusive transport. For example, the properties of a class of non-recurrent trees ($\bar{d}>2$) with asymmetric elements and branching violate the Alexander Orbach scaling law.

preprint2009arXivOpen access
Christophe P. HaynesAnthony P. Roberts
cond-mat.stat-mech
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Christophe P. HaynesAnthony P. Roberts

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