Add to ORKGNeural activity patterns related to behavior occur at many scales in time and space from the atomic and molecular to the whole brain. Patterns form through interactions in both directions, so that the impact of transmitter molecule release can be analyzed to larger scales through synapses, dendrites, neurons, populations and brain systems to behavior, and control of that release can be described step-wise through transforms to smaller scales. Here we explore the feasibility of interpreting neurophysiological data in the context of many-body physics by using tools that physicists have devised to analyze comparable hierarchies in other fields of science. We focus on a mesoscopic level that offers a multi-step pathway between the microscopic f...
Brains interface with the world through perception. The process extracts information from microscopi...
Nonlinear time series analyses have suggested that the human electroencephalogram (EEG) may share st...
It is well known that neuronal networks are capable of transmitting complex spatiotemporal informati...
Progress in understanding the global brain dynamics has remained slow to date in large part because ...
In the engagement of the brain with its environment, large-scale neural interactions in brain dynam...
Fields of neural activity are seen in synchronized oscillations that are detected at mesoscopic scal...
Biological neural networks produce information backgrounds of multi-scale spontaneous activity that ...
There is some complementarity of models for the origin of the electroencephalogram (EEG), and neural...
There is some complementarity of models for the origin of the electroencephalogram (EEG) and neural ...
We compare the predictions of the dissipative quantum model of the brain with neurophysiological da...
We compare the predictions of the dissipative quantum model of the brain with neurophysiological da...
Domains of cooperative neural activity called 'wave packets' have been discovered in the visual, aud...
Recordings of brain electrophysiological activity provide the most direct reflect of neural function...
Traveling patterns of neuronal activity—brain waves—have been observed across a breadth of neuronal ...
The human brain is a hierarchical complex network − always active and evolvingdynamically. Its...
Brains interface with the world through perception. The process extracts information from microscopi...
Nonlinear time series analyses have suggested that the human electroencephalogram (EEG) may share st...
It is well known that neuronal networks are capable of transmitting complex spatiotemporal informati...
Progress in understanding the global brain dynamics has remained slow to date in large part because ...
In the engagement of the brain with its environment, large-scale neural interactions in brain dynam...
Fields of neural activity are seen in synchronized oscillations that are detected at mesoscopic scal...
Biological neural networks produce information backgrounds of multi-scale spontaneous activity that ...
There is some complementarity of models for the origin of the electroencephalogram (EEG), and neural...
There is some complementarity of models for the origin of the electroencephalogram (EEG) and neural ...
We compare the predictions of the dissipative quantum model of the brain with neurophysiological da...
We compare the predictions of the dissipative quantum model of the brain with neurophysiological da...
Domains of cooperative neural activity called 'wave packets' have been discovered in the visual, aud...
Recordings of brain electrophysiological activity provide the most direct reflect of neural function...
Traveling patterns of neuronal activity—brain waves—have been observed across a breadth of neuronal ...
The human brain is a hierarchical complex network − always active and evolvingdynamically. Its...
Brains interface with the world through perception. The process extracts information from microscopi...
Nonlinear time series analyses have suggested that the human electroencephalogram (EEG) may share st...
It is well known that neuronal networks are capable of transmitting complex spatiotemporal informati...