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Karl H. Pribram (/ ˈ p r aɪ b r æ m /; German: [ˈpʁiːbram]; February 25, 1919 – January 19, 2015) was a neurosurgeon, neuroscientist and theoretical philosopher described by his peers as the “Einstein of Brain Science” [1] and the “Magellan of the Mind” for his groundbreaking research into the “functions of the brain’s limbic system, frontal lobes, temporal lobes, and their ...
Holonomic brain theory is a branch of neuroscience investigating the idea that consciousness is formed by quantum effects in or between brain cells. Holonomic refers to representations in a Hilbert phase space defined by both spectral and space-time coordinates. [1]
It is also based in Karl Pribram's theory of holographic memory, which states that memory is distributed throughout the brain and not in specific zones or engrams, [5] and in Bell's mathematical theorem. In 1978, Feldman-González was invited by Bohm to the University of London, England, to talk on Unitary Perception. They became lifelong friends.
Karl Pribram or Přibram may refer to: Karl Přibram (1877–1973), Austrian-born economist Karl H. Pribram (1919–2015), Austrian-born neurosurgeon and theorist of cognition
This included new theories on how to view memory, often likening it to a computer processing model. Two important books influenced the revolution: Plans and Structures of Behavior by George Miller, Eugene Galanter, and Karl H. Pribram in 1960 and Cognitive Psychology by Ulric Neisser in 1967. [6]
In collaboration with Stanford University neuroscientist Karl H. Pribram, Bohm was involved in the early development of the holonomic model of the functioning of the brain, a model for human cognition that is drastically different from conventionally-accepted ideas.
The quantum mind or quantum consciousness is a group of hypotheses proposing that local physical laws and interactions from classical mechanics or connections between neurons alone cannot explain consciousness, [1] positing instead that quantum-mechanical phenomena, such as entanglement and superposition that cause nonlocalized quantum effects, interacting in smaller features of the brain than ...
Orch OR has been criticized both by physicists [14] [54] [34] [55] [56] and neuroscientists [57] [58] [59] who consider it to be a poor model of brain physiology. Orch OR has also been criticized for lacking explanatory power ; the philosopher Patricia Churchland wrote, "Pixie dust in the synapses is about as explanatorily powerful as quantum ...