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Literature DB >> 23006405

Physarum polycephalum percolation as a paradigm for topological phase transitions in transportation networks.

Adrian Fessel¹, Christina Oettmeier, Erik Bernitt, Nils C Gauthier, Hans-Günther Döbereiner.

Abstract

We study the formation of transportation networks of the true slime mold Physarum polycephalum after fragmentation by shear. Small fragments, called microplasmodia, fuse to form macroplasmodia in a percolation transition. At this topological phase transition, one single giant component forms, connecting most of the previously isolated microplasmodia. Employing the configuration model of graph theory for small link degree, we have found analytically an exact solution for the phase transition. It is generally applicable to percolation as seen, e.g., in vascular networks.

Entities: Species

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Year: 2012 PMID： 23006405 DOI： 10.1103/PhysRevLett.109.078103

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Physarum polycephalum percolation as a paradigm for topological phase transitions in transportation networks.

1. Cell fusion through slime mould network dynamics.

2. Cooperation in Harsh Environments and the Emergence of Spatial Patterns.

3. Adaptive behaviour and learning in slime moulds: the role of oscillations.

4. An active poroelastic model for mechanochemical patterns in protoplasmic droplets of Physarum polycephalum.

5. Substrate and cell fusion influence on slime mold network dynamics.

6. Roles of Remote and Contact Forces in Epithelial Cell Structure Formation.