Scaling in the brain

Q3 Engineering
D. Le Bihan
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引用次数: 0

Abstract

Proper scaling is an important concept in physics. It allows theoretical frameworks originally developed to address a specific question to be generalized or recycled to solve another problem at a different scale. The rescaling of the theory of heat to link diffusion and Brownian motion is a famous example set out by Einstein. We have recently shown how the special and general relativity theories could be scaled down to the action potential propagation speed in the brain to explain some of its functioning: Functional “distances” between neural nodes (geodesics), depend on both the spatial distances between nodes and the time to propagate between them, through a connectome spacetime with four intricated dimensions. This spacetime may further be curved by neural activity suggesting how conscious activity could act in a similar the gravitational field curved the physical spacetime. Indeed, the apparent gap between the microscopic and macroscopic connectome scales may find an echo in the AdS/CFT correspondence. Applied to the brain connectome, this means that consciousness may appear as the emergence in a 5D spacetime of the neural activity present as its boundaries, the 4D cortical spacetime, as a holographic 5D construction by our inner brain. We explore here how the conflict between ‘consciousness and matter’ could be resolved by considering that the spacetime of our cerebral connectome has five dimensions, the fifth dimension allowing the natural, immaterial emergence of consciousness as a dual form of the 4D spacetime embedded in our material cerebral cortex.

Statement Of Significance

Scaling to the brain the AdS/CFT framework which shows how the General Gravity framework, hence gravitation, naturally (mathematically) emerges from a “flat”, gravitationless Quantum 4D spacetime once a fifth dimension is considered, we conjecture that the conflict between ‘consciousness and matter’ might be ill-posed and could be resolved by considering that the spacetime of our cerebral connectome has five dimensions, the fifth dimension allowing the natural, immaterial (mind, private) emergence of consciousness as a dual form of the 4D spacetime activity embedded in our material (body, public) cerebral cortex.
大脑中的缩放
适当缩放是物理学中的一个重要概念。它允许将原本为解决特定问题而开发的理论框架加以推广或再造,以解决不同尺度上的另一个问题。爱因斯坦提出了一个著名的例子,即重新调整热理论的尺度,将扩散和布朗运动联系起来。最近,我们展示了如何将狭义相对论和广义相对论缩小到大脑中的动作电位传播速度,以解释大脑的某些功能:神经节点之间的功能 "距离"(大地线)取决于节点之间的空间距离和节点之间的传播时间,并通过一个具有四个复杂维度的连接体时空传播。这个时空可能会被神经活动进一步弯曲,这表明有意识的活动是如何以类似于引力场弯曲物理时空的方式发挥作用的。事实上,微观和宏观连接组尺度之间的明显差距可能在 AdS/CFT 对应中找到了呼应。应用于大脑连接组,这意味着意识可能是作为其边界的神经活动在 5D 时空中的出现,即 4D 大脑皮层时空,是我们大脑内部的全息 5D 构建。我们在此探讨如何通过考虑我们大脑连接体的时空有五个维度来解决 "意识与物质 "之间的冲突,第五维度允许意识作为嵌入我们物质大脑皮层的 4D 时空的双重形式自然、非物质地出现。意义声明将 AdS/CFT 框架扩展到大脑,表明一旦考虑到第五维度,广义引力框架(即引力)是如何从 "平坦"、无引力的量子四维时空中自然(数学地)产生的、我们猜想,"意识与物质 "之间的冲突可能是不恰当的,可以通过考虑我们大脑连接体的时空有五个维度来解决,第五维度允许自然、非物质(心灵、私人)的意识出现,作为嵌入我们物质(身体、公共)大脑皮层的四维时空活动的双重形式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Brain multiphysics
Brain multiphysics Physics and Astronomy (General), Modelling and Simulation, Neuroscience (General), Biomedical Engineering
CiteScore
4.80
自引率
0.00%
发文量
0
审稿时长
68 days
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