Interaction and adiabatic evolution of orthodromic and antidromic impulses in the axoplasmic fluid

arXiv - PHYS - Pattern Formation and Solitons Pub Date : 2024-05-27 DOI:arxiv-2405.19370
O. Pavón-Torres, M. A. Agüero-Granados, M. E. Maguiña-Palma
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引用次数: 0

Abstract

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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轴浆流体中正交脉冲和反交脉冲的相互作用和绝热演化
根据霍奇金-赫胥黎模型的预测,一旦正激脉冲和反激脉冲相撞,就会产生湮灭现象,而海姆伯格-杰克逊模型则不同,它证明了这两种脉冲会相互穿透,正如实验所证明的那样。这些脉冲可以描述为阻尼 NLSE 所描述的弱耗散孤子模型中的低振幅非线性激励。有鉴于此,卡普曼-索洛夫-马斯洛夫扰动理论被证明是研究存在轴质流体时正交和反交脉冲的相互作用和绝热演化的理想理论。
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arXiv - PHYS - Pattern Formation and Solitons
arXiv - PHYS - Pattern Formation and Solitons
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