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感受质的电磁场理论：它们能超越标准神经科学吗？

Electromagnetic-field theories of qualia: can they improve upon standard neuroscience?

作者信息

Jones Mostyn W, Hunt Tam

机构信息

Retired, Washington, PA, United States.

Department of Psychological and Brain Sciences, University of California, Santa Barbara, Santa Barbara, CA, United States.

出版信息

Front Psychol. 2023 Jun 1;14:1015967. doi: 10.3389/fpsyg.2023.1015967. eCollection 2023.

DOI:10.3389/fpsyg.2023.1015967

PMID:37325753

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10267331/

Abstract

How do brains create all our different colors, pains, and other conscious qualities? These various qualia are the most essential aspects of consciousness. Yet standard neuroscience (primarily based on synaptic information processing) has not found the synaptic-firing codes, sometimes described as the "spike code," to account for how these qualia arise and how they unite to form complex perceptions, emotions, . Nor is it clear how to get from these abstract codes to the qualia we experience. But electromagnetic field (versus synaptic) approaches to how qualia arise have been offered in recent years by Pockett, McFadden, Jones, Bond, Ward and Guevera, Keppler and Shani, Hunt and Schooler, . These EM-field approaches show promise in offering more viable accounts of qualia. Yet, until now, they have not been evaluated together. We review various EM field theories of qualia, highlight their strengths and weaknesses, and contrast these theories with standard neuroscience approaches.

摘要

大脑是如何创造出我们所有不同的颜色、疼痛及其他意识特质的？这些各种各样的感受质是意识最为关键的方面。然而，标准的神经科学（主要基于突触信息处理）尚未找到有时被称为“尖峰编码”的突触放电编码，来解释这些感受质是如何产生的，以及它们如何结合形成复杂的感知、情感等。也不清楚如何从这些抽象编码过渡到我们所体验到的感受质。但是近年来，波克特、麦克法登、琼斯、邦德、沃德和格韦拉、开普勒和沙尼、亨特和斯库勒等人提出了关于感受质如何产生的电磁场（相对于突触）研究方法。这些电磁场研究方法有望为感受质提供更可行的解释。然而，到目前为止，它们尚未被一起评估。我们回顾了各种关于感受质的电磁场理论，突出了它们的优缺点，并将这些理论与标准神经科学方法进行对比。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/58e9/10267331/717322e64a6f/fpsyg-14-1015967-g001.jpg

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感受质的电磁场理论：它们能超越标准神经科学吗？

Electromagnetic-field theories of qualia: can they improve upon standard neuroscience?

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