O. Pavón-Torres, M. A. Agüero-Granados, M. E. Maguiña-Palma
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Interaction and adiabatic evolution of orthodromic and antidromic impulses in the axoplasmic fluid
Unlike expected from the Hodgkin-Huxley model predictions, in which there is
annihilation once orthodromic and antidromic impulses collide, the
Heimburg-Jackson model demonstrates that both impulses penetrate each other as
it has been shown experimentally. These impulses can be depicted as low
amplitude nonlinear excitations in a weakly dissipative soliton model described
by the damped NLSE. In view of the above, the Karpman-Solov'ev-Maslov
perturbation theory turns out to be ideal to study the interaction and
adiabatic evolution of orthodromic and antidromic impulses once axoplasmic
fluid is present.
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