利用等效能量法研究基于记忆性 EMR 的 Chaivlo 神经元的发射动态和耦合同步。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-01 DOI:10.1063/5.0229072
Bin Liu, Muning Li, Zhijun Li, Yaonan Tong, Zhaoyu Li, Chunlai Li
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引用次数: 0

摘要

神经元的发射动态及其能量特性对于探索神经系统内复杂的信息处理机制至关重要。然而,与连续神经元的大量文献和成熟理论相比,离散神经元的能量分析明显不足,因此有必要在这一未充分探索的领域进行重点研究。在本文中,我们采用通量控制记忆晶体管来模拟电磁辐射(EMR),从而引入了一种 Chaivlo 神经元图谱,并基于等效哈密顿能量方法对其发射动态进行了详细分析。我们的观察结果表明,电磁辐射和注入电流可诱导一系列基于能量的发射行为,如尖峰发射、共存发射、混合模式发射和混沌猝发发射。为了深入研究同步点火动力学,我们通过电耦合两个基于记忆性 EMR 的 Chaivlo 神经元,建立了一个 Chaivlo 网络。随后,我们通过量化同步因子和等效哈密顿能量的平均差异,对该网络的同步行为进行了实验评估。我们的研究结果最终证明,EMR 和耦合强度对网络的同步能力都有积极的促进作用。
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Firing dynamics and coupling synchronization of memristive EMR-based Chaivlo neuron utilizing equivalent energy approach.

Firing dynamics and its energy property of neuron are crucial for exploring the mechanism of intricate information processing within the nervous system. However, the energy analysis of discrete neuron is significantly lacking in comparison to the vast literature and mature theory available on continuous neuron, thereby necessitating a focused effort in this underexplored realm. In this paper, we introduce a Chaivlo neuron map by employing a flux-controlled memristor to simulate electromagnetic radiation (EMR), and a detailed analysis of its firing dynamics is conducted based on an equivalent Hamiltonian energy approach. Our observations reveal that a range of energy-based firing behaviors, such as spike firing, coexistence firing, mixed-mode firing, and chaotic bursting firing, can be induced by EMR and injected current. To delve deeper into the synchronous firing dynamics, we establish a Chaivlo network by electrically coupling two memristive EMR-based Chaivlo neurons. Subsequently, we experimentally evaluate the synchronization behavior of this network by quantifying both the synchronization factor and the average difference of equivalent Hamiltonian energy. Our findings conclusively demonstrate that both EMR and coupling strength positively contribute to the network's synchronization ability.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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