基于量子力学的概率神经突触

2022 IEEE/ACIS 23rd International Conference on Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing (SNPD) Pub Date : 2022-12-07 DOI:10.1109/SNPD54884.2022.10051767

H. Nieto-Chaupis

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引用次数: 0

摘要

突触传递的过程被投射到量子力学的领域。因此，电相互作用被看作是概率事件，而不是确定性事件。以这种方式，神经递质将遵循量子定律，其动力学由进化算子控制。因此，突触被视为一种传播行为，将很好地涵盖空间传播器或格林函数，该函数可能模拟神经递质沿间隙的动态。事实证明，这与神经传递的概念是一致的。在量子力学的情况下，我们发现哈密顿量能量的特征值存在于离子通道上带电的神经递质和受体之间的电势中。

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Probabilistic Neural Synapse Based in Quantum Mechanics

The process of synaptic transmission is projected onto the territory of quantum mechanics. Thus, the electric interactions are seen as probabilistic events more than a deterministic one. In this manner, the neurotransmitter would obey quantum laws and their dynamics is governed by the evolution operator. Thus, synapse seen as an action of propagation would encompasses well to that the spatial propagator or Green function that might model the dyanamics of neurotransmitters along the cleft. This turns out to be instantaneous in coherence to the concept of neural transmission. Indeed under the quantum mechnics scenario it is found that the eigenvalues of energies of Hamiltonian consist in electric potentials between electrically charged neurotransmitters and receptors at the ion channels.

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来源期刊

2022 IEEE/ACIS 23rd International Conference on Software Engineering, Artificial Intelligence, Networking and Parallel/Distributed Computing (SNPD)

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