Abstract
We propose a mathematical model which can quantitatively describe thekinetics of postsynaptic membrane potential modulated by a lowintensity laser. By virtue of the numerical computation, it is foundthat the height of peak of fast excitatory postsynaptic potential(f-EPSP) for intermediate laser power density (around 2 mW/cm2) ishigher than that for both small and large laser power densities, thatis, of the f-EPSP peak height changes with the increasing laser powerdensity (up to 5 mW/cm2) in non-monotonic behaviour. The theoreticalresults are qualitatively consistent with the previous experimentaldata.
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