creators_name: Hu, Huping creators_name: Wu, Maoxin type: preprint datestamp: 2006-03-16 lastmod: 2011-03-11 08:56:21 metadata_visibility: show title: Photon Induced Non-local Effects of General Anaesthetics on the Brain subjects: bio-phys subjects: phil-mind full_text_status: public keywords: Nonlocal Effect, Quantum Entanglement, Anesthesia abstract: Photons are intrinsically quantum objects and natural long-distance carriers of information in both classical and quantum communications1. Since brain functions involve information and many experiments have shown that quantum entanglement is physically real, we have contemplated from the perspective of our recent hypothesis2 on the possibility of entangling the quantum entities inside the brain with those in an external anaesthetic sample and carried out experiments toward that end. Here we report that applying magnetic pulses to the brain when a general anaesthetic sample was placed in between caused the brain to feel the effect of said anaesthetic for several hours after the treatment as if the test subject had actually inhaled the same. The said effect is consistently reproducible on all four subjects tested. We further found that drinking water exposed to magnetic pulses, laser light, microwave or even flashlight when an anaesthetic sample was placed in between also causes consistently reproducible brain effects in various degrees. We have in addition tested several medications including morphine and obtained consistently reproducible results. Further, through additional experiments we have verified that the said brain effect is the consequence of quantum entanglement between quantum entities inside the brain and those of the chemical substance under study induced by the photons of the magnetic pulses or applied lights. We suggest that the said quantum entities inside the brain are nuclear and/or electron spins and discuss the profound implications of these results. date: 2006-03 date_type: published refereed: FALSE referencetext: 1. Julsgaard, B., Sherson, J., Cirac, J. I., Fiurasek, J. & Polzik, E. S. Experimental demonstration of quantum memory for light. Nature 432, 482–485 (2004). 2. Hu, H. P., & Wu, M. X. Spin-mediated consciousness theory. Medical Hypotheses 63, 633–646 (2004). Also see arXiv e-print quant-ph/0208068 (2002). 3. Julsgaard, B., Kozhekin, A. & Polzik, E. S. Experimentally long-lived entanglement of two macroscopic objects. Nature 413, 400–403 (2001). 4. Ghosh, S., Rosenbaum, T. F., Aeppli, G. & Coppersmith, S. N. Entangled quantum state of magnetic dipoles. Nature 425, 48-51 (2003). 5. Matsukevich, D. N. & Kuzmich, A. Quantum state transfer between matter and light. Science 306, 663–666 (2004). 6. Chanelière,T. et al. Storage and retrieval of single photons transmitted between remote quantum memorie. Nature 438, 833-836 (2005). 7. Davenas, E. et al. Human basophil degranulation triggered by very dilute antiserum against IgE. Nature 333, 816-818 (1988). 8. Hu, H. P., & Wu, M. X. Thinking outside the box: the essence and implications of quantum entanglement. Cogprints ID4581. 9. Gershenfeld, N. & Chuang, I. L. Bulk spin resonance quantum computation. Science 275, 350–356 (1997). 10. Khitrin, A. K., Ermakov, V. L. & Fung, B. M. Information storage using a cluster of dipolar-coupled spins. Chem. Phys. Lett. 360, 161–166 (2002). 11. Dirac, P. A. M. The quantum theory of the electron. Proc. R. Soc. A 117, 610-624 (1928). 12. Hestenes, D. Quantum mechanics from self-interaction. Found. Phys. 15, 63–78 (1983). 13. Salesi, G. & Recami, E. Hydrodynamics of spinning particles. Phys. Rev. A 57, 98–105 (1998). citation: Hu, Huping and Wu, Maoxin (2006) Photon Induced Non-local Effects of General Anaesthetics on the Brain. [Preprint] document_url: http://cogprints.org/4783/1/NonlocalEffect.pdf