Vortices in brain waves

W. Freeman, G. Vitiello
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引用次数: 43

Abstract

Interactions by mutual excitation in neural populations in human and animal brains create a mesoscopic order parameter that is recorded in brain waves (electroencephalogram, EEG). Spatially and spectrally distributed oscillations are imposed on the background activity by inhibitory feedback in the gamma range (30-80 Hz). Beats recur at theta rates (3-7 Hz), at which the order parameter transiently approaches zero and microscopic activity becomes disordered. After these null spikes, the order parameter resurges and initiates a frame bearing a mesoscopic spatial pattern of gamma amplitude modulation that governs the microscopic activity, and that is correlated with behavior. The brain waves also reveal a spatial pattern of phase modulation in the form of a cone. Using the formalism of the dissipative many-body model of brain, we describe the null spikes and the accompanying phase cones as vortices.
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脑电波中的漩涡
人类和动物大脑中神经群相互激发的相互作用产生了一种介观有序参数,记录在脑电波中(脑电图,EEG)。空间和频谱分布的振荡是通过抑制反馈施加在伽马范围(30-80赫兹)的背景活动。跳动以θ频率(3-7 Hz)重复出现,此时有序参数暂时接近零,微观活动变得无序。在这些零尖峰之后,顺序参数恢复并启动一个框架,该框架承载着控制微观活动的伽马振幅调制的介观空间模式,并且与行为相关。脑电波也以锥体的形式显示出相位调制的空间模式。利用脑耗散多体模型的形式,我们将零峰和伴随的相锥描述为涡旋。
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