The brain is a fractal massively parallel processor generating complex spatiotemporal electromagnetic field patterns that correlate with cognition and perception. A key property of a fractal system is scale-free complexity, which means that the degree of complexity of the system is invariant under scaling— for example, using a power-law quantification, it can be shown that the degree of complexity within the human brain is approximately invariant from the tissue, to the cellular, to the molecular levels. The electrical field potentials and magnetic resonance responses of the brain all exhibit scale-free dynamics [1], and these scale-invariant brain dynamics contain complex spatiotemporal structures that are modulated by task performance. Previous studies have shown that scale-free temporal correlations connect the vibrational modes of single neurons to the fractal-antenna-like biopolymers (dielectric...
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