Annual review of neuroscience38(1), 195–219 (2015) 17

Froemke, R · 2015

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Impact of heavy-tailed synaptic strength distributions on self-sustained activity in networks of spiking neurons

cond-mat.dis-nn · 2026-03-23 · conditional · novelty 7.0

Heavy-tailed Cauchy synaptic couplings enable a directed percolation threshold for network-wide self-sustained activity in spiking neuron models, absent in light-tailed or noisy variants, with transition type set by E-I imbalance.

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Impact of heavy-tailed synaptic strength distributions on self-sustained activity in networks of spiking neurons cond-mat.dis-nn · 2026-03-23 · conditional · none · ref 53
Heavy-tailed Cauchy synaptic couplings enable a directed percolation threshold for network-wide self-sustained activity in spiking neuron models, absent in light-tailed or noisy variants, with transition type set by E-I imbalance.

Annual review of neuroscience38(1), 195–219 (2015) 17

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