Danko Georgiev's Papers

GEORGIEV, D. (2005). Complementarity is not violated – critical analysis of Afshar's experimental setup. Pre-print

GEORGIEV, D., PAPAIOANOU, S. & GLAZEBROOK, J. (2004). Neuronic system inside neurons: molecular biology and biophysics of neuronal microtubules. Biomedical Reviews 15: 67-75

GEORGIEV, D. (2004) Solitonic effects of the local electromagnetic field on neuronal microtubules – tubulin tail sine-Gordon solitons could control MAP attachment sites and microtubule motor protein function. CogPrints ID 3894

GEORGIEV, D. (2004). The nervous principle: active versus passive electric processes in neurons. Invited chapter for Electroneurobiologia Vol. 12 (2), pp. 169-230

GEORGIEV, D. (2004). Consciousness operates beyond the timescale for discerning time intervals: implication for Q-mind theories and analysis of quantum decoherence in brain. NeuroQuantology 2(2): 122-145

GEORGIEV, D. (2004). Hitchcock’s Timeless But Changing Universe is Superposed Universe of Space Gradients. NeuroQuantology 2(1): 50-53

GEORGIEV, D. (2004). Chalmers' principle of organizational invariance makes consciousness fundamental but meaningless spectator of its own drama. PhilSci ID 00001702

GEORGIEV, D. (2004). Bose-Einstein condensation of tunneling photons in the brain cortex as a mechanism of conscious action. CogPrints ID 3539

GEORGIEV, D. (2003). Revisiting the microtubule based quantum models of mind: tubulin bound GTP cannot pump microtubule coherence or provide energy for α<->β computation in stable microtubules. CogPrints ID 3251

GEORGIEV, D. (2003). Electric & magnetic fields inside neurons and their impact upon the cytoskeletal microtubules. CogPrints ID 3190

GEORGIEV, D. (2003). Interneuronal macroscopic quantum coherence in the brain cortex! The role of the intrasynaptic adhesive proteins β-neurexin and neuroligin-1. PhilSci ID 00001355

GEORGIEV, D. (2003). Solving the binding problem: cellular adhesive proteins and their control of the cortical quantum entangled network. CogPrints ID 2923

GEORGIEV, D. (2002). Impairment of consciousness in Alzheimer's disease: the amyloid water-filled nanotubes manifest quantum optical coherence interfering with the normal quantum brain dynamics? Quant-ph/0211171

GEORGIEV, D. (2002). The causal consciousness: β-neurexin promotes neuromediator release via vibrational multidimensional tunneling. Quant-ph/0210102

GEORGIEV, D. (2002). Where do the photons collapse - in the retina or in the brain cortex? Quant-ph/0208053

GEORGIEV, D. (2002). The β-neurexin-neuroligin-1 interneuronal intrasynaptic adhesion is essential for quantum brain dynamics. Quant-ph/0207093