Nowadays, the physical analogy in biology has become a desirable research domain for academics. Here, we discussed many exciting features regarding the biological system that could help us to understand the underlying mechanism inside it. This manuscript focuses on the soliton/Bloch wave concept along with the periodic active protein polarized dendrite. The velocity of the existent soliton wave is identified by considering the transmission line model of protein polarized dendrite as a dielectric waveguide. This paper aims to understand and explore the mechanisms of biological rhythms and the role of neural oscillations and synchrony in information processing.

中文翻译：

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Bloch波概念：基于蛋白质极化树枝状晶体的传输线模型被视为介质波导谐振器

如今，生物学中的物理类比已成为学者们理想的研究领域。在这里，我们讨论了有关生物系统的许多令人兴奋的功能，这些功能可以帮助我们了解其中的潜在机制。该手稿侧重于孤子/布洛赫波概念以及周期性的活性蛋白极化树突。通过考虑蛋白质极化树枝状晶体的传输线模型作为介质波导来确定存在的孤波的速度。本文旨在了解和探索生物节律的机制以及神经振荡和同步在信息处理中的作用。