Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2009-02-19
T Tlusty and J-P Eckmann 2009 J. Phys. A: Math. Theor. 42 205004
Physics
Condensed Matter
Statistical Mechanics
Scientific paper
10.1088/1751-8113/42/20/205004
We examine bootstrap percolation in d-dimensional, directed metric graphs in the context of recent measurements of firing dynamics in 2D neuronal cultures. There are two regimes, depending on the graph size N. Large metric graphs are ignited by the occurrence of critical nuclei, which initially occupy an infinitesimal fraction, f_* -> 0, of the graph and then explode throughout a finite fraction. Smaller metric graphs are effectively random in the sense that their ignition requires the initial ignition of a finite, unlocalized fraction of the graph, f_* >0. The crossover between the two regimes is at a size N_* which scales exponentially with the connectivity range \lambda like_* \sim \exp\lambda^d. The neuronal cultures are finite metric graphs of size N \simeq 10^5-10^6, which, for the parameters of the experiment, is effectively random since N<< N_*. This explains the seeming contradiction in the observed finite f_* in these cultures. Finally, we discuss the dynamics of the firing front.
Eckmann Jean-Pierre
Tlusty Tsvi
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