Fig. 8
From: Dynamic Modular Networks Model Mediated by Confinement
Left panel: time evolution of the largest connected component for an initial random network with N=104 and 〈k〉=4. The size of the component is given in relation to the size N of the network, with N →1, and curves for different sets of parameters are shown. After a transient state, the giant component stabilizes, while nodes leave and reenter the connected component. Right panel: phase diagram showing the size of the largest connected component as a function of parameters ps and pf. The size of the component is given in relation to the size N of the network. Dark blue regions representing a larger component. Larger confinement spaces result in increased reduction of connectivity degree of the nodes outside \(\left.\mathcal {P}\right)\), resulting in more disconnections. Likewise, with a smaller flux, less detached clusters and nodes are reattached. Initial network is random with size N=104 and 〈k〉=4