We tested rebound spiking properties in medial entorhinal cortex stellate cells.
Hyperpolarizing inputs eliciting rebound spikes occur in a specific phase range relative to sinusoidal input current.
Rebound spikes fall between the peak and descending zero crossing of the sinusoid.
Using Izhikevich neurons, we model the rebound spiking behaviors found in vitro.
Placing model neurons in a neural network we simulate 1D spatially periodic firing.