20 59 De Zeeuw.
Hameroff originally suggested the tubulin-subunit electrons would form a BoseEinstein condensate.
They claimed that quantum dipole coupling among tryptophan resonance clouds, mediated by exciton hopping or Forster resonance energy transfer (fret) across the tubulin protein are plausible.Reprinted in Topics in Logic, Philosophy and Foundations of Mathematics and Computer Science:In Recognition of Professor Andrzej Grzegorczyk (2008.6 On promo tennis warehouse the second issue the theory was retrofitted so that 8 MHz coherence is sufficient to support the whole Orch-OR hypothesis."Towards quantum superpositions of a mirror".Journal remise a niveau anglais pole emploi of Theoretical Biology.Marshall,., Simon,., Penrose,., and Bouwmeester,.7 Details edit Penrose sought to reconcile general relativity and quantum theory using his own ideas about the possible structure of spacetime.In 1998 Hameroff made 8 probable assumptions and 20 testable predictions to back his proposal.34 Microtubule condensates edit Hameroff proposed that microtubules were suitable candidates for quantum processing.The model microtubule on promo manteaux desigual which they base their Hamiltonian is not a microtubule structure, but a simple linear chain of oscillators." Hameroff reasoned that such condensate behavior would magnify nanoscopic quantum effects to have large scale influences in the brain."The dendritic lamellar body: A new neuronal organelle putatively associated with dendrodentritic gap junctions".United States: m, Inc.Hameroff proposed that condensates in microtubules in one neuron can link with microtubule condensates in other neurons and glial cells via the gap junctions of electrical synapses.62 63 showed that all in vivo microtubules have a 'B' lattice and a seam."Falsifications of HameroffPenrose Orch OR model of consciousness and novel avenues for development of quantum mind theory".
Similar claims about the implications of Gödel's theorem were originally espoused by the philosopher John Lucas of Merton College, Oxford in 1961.