Quantum brain dynamics

In neuroscience, quantum brain dynamics (QBD) is a hypothesis to explain the function of the brain within the framework of quantum field theory.

Large systems, such as those studied biologically, have less symmetry than the idealized systems or single crystals often studied in physics. Jeffrey Goldstone proved that where symmetry is broken, additional bosons, the Nambu–Goldstone bosons, will then be observed in the spectrum of possible states; one canonical example being the phonon in a crystal.

Ricciardi and Umezawa proposed in 1967 a general theory of quanta of long-range coherent waves within and between brain cells, and showed a possible mechanism of memory storage and retrieval in terms of Nambu–Goldstone bosons.[1] This was later fleshed out into a theory encompassing all biological cells and systems in the quantum biodynamics of Del Giudice and co-authors.[2][3] Mari Jibu and Kunio Yasue later popularized these results and discussed the implications towards consciousness.[4][5][6]

See also

References

  1. Ricciardi LM, Umezawa H (1967). "Brain and physics of many-body problems". Kybernetik 4: 44–48. doi:10.1007/bf00292170.
  2. Del Giudice E, Doglia S, Milani M, Vitiello G (1986). "Electromagnetic field and spontaneous symmetry breaking in biological matter". Nucl. Phys. B 275: 185–199. doi:10.1016/0550-3213(86)90595-x.
  3. Del Giudice E, Preparata G, Vitiello G (1988). "Water as a free electric dipole laser". Physical Review Letters 61: 1085–1088. doi:10.1103/physrevlett.61.1085.
  4. Jibu M, Yasue K (1995). Quantum Brain Dynamics: An Introduction. Amsterdam: John Benjamins.
  5. Jibu M, Yasue K (1997). "What is mind? Quantum field theory of evanescent photons in brain as quantum theory of consciousness". Informatica 21: 471–490.
  6. Yasue, Kunio. "Quantum Monadology". Toward a Science of Consciousness.
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