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Evidence of Non-Local Physical, Chemical and Biological Effects Supports Quantum

Hu, Huping and Wu, Maoxin (2006) Evidence of Non-Local Physical, Chemical and Biological Effects Supports Quantum. [Journal (Paginated)]

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Abstract

Previously we carried out experiments from the perspective of our spin-mediated consciousness theory to test the possibility of quantum-entangling the quantum entities inside the brain with those of an external chemical substance. We found that applying magnetic pulses to the brain when an anesthetic was placed in between caused the brain to feel the effect of said anesthetic as if the test subject had actually inhaled the same. We further found that drinking water exposed to magnetic pulses, laser light or microwave when an anesthetic was placed in between also causes brain effects in various degrees. Through additional experiments, we verified that the said brain effect was indeed the consequence of quantum entanglement. These results defy common belief that quantum entanglement alone cannot be used to transmit information and support the possibility of a quantum brain. While our reported results are under independent verifications by other groups, we report here our experimental findings of non-local chemical, thermal and gravitational effects in simple physical systems such as reservoirs of water quantum-entangled with water being manipulated in a remote reservoir. With the aids of high-precision instruments, we have found that the pH value, temperature and gravity of a liquid such as water in the detecting reservoirs can be non-locally affected through manipulating water in the remote reservoir. In particular, the pH value changes in the same direction as that being manipulated; the temperature can change against that of local environment; and the gravity can change against local gravity. These non-local effects are all reproducible, surprisingly robust and support a quantum brain theory such as our spin mediated consciousness theory. They can be used for non-local signaling and many other purposes. We suggest that they are mediated by quantum entanglement between nuclear and/or electron spins in the treated liquids and discuss the profound implications of these results.

Item Type:Journal (Paginated)
Keywords:quantum entanglement, non-local effect, gravity, pH, temperature, quantum brain, spin-mediated consciousness
Subjects:Neuroscience > Biophysics
ID Code:5613
Deposited By:Hu, Dr. Huping
Deposited On:28 Jul 2007
Last Modified:11 Mar 2011 08:56

References in Article

Select the SEEK icon to attempt to find the referenced article. If it does not appear to be in cogprints you will be forwarded to the paracite service. Poorly formated references will probably not work.

Chanelière,T et al. Storage and retrieval of single photons transmitted between remote quantum memorie. Nature 2005: 438: 833-836.

Eberhard, P. Bell's theorem and the different concepts of locality. Nuovo Cimento 1978; 46B: 392-419.

Gershenfeld, N, Chuang, IL. Bulk spin resonance quantum computation. Science 1997; 275: 350–356.

Ghosh, S, Rosenbaum, TF, Aeppli, G, Coppersmith, SN. Entangled quantum state of magnetic dipoles. Nature: 2003; 425: 48-51.

Hestenes, D. Quantum mechanics from self-interaction. Found. Phys. 1983; 15: 63–78.

Hu, H. & Wu, M. Spin-mediated consciousness theory. arXiv 2002; quant-ph/0208068 (2002). Also see Med. Hypotheses 2004a: 63: 633-646.

Hu, HP, Wu, MX Thinking outside the box: the essence and implications of quantum entanglement. NeuroQuantology 2006a; 4: 5-16.

Hu, HP, Wu, MX. Photon induced non-local effects of general anesthetics on the brain. NeuroQuantology 2006b; 4: 17-31. Also see Progress in Physics 2006c; v3: 20-26.

Julsgaard, B, Kozhekin, A, Polzik, ES. Experimentally long-lived entanglement of two macroscopic objects. Nature 2001; 413: 400–403.

Khitrin, AK, Ermakov, VL, Fung, BM. Information storage using a cluster of dipolar-coupled spins. Chem. Phys. Lett. 2002; 360: 161–166.

Matsukevich, DN & Kuzmich, A. Quantum state transfer between matter and light. Science 2004; 306: 663–666.

Salesi, G, Recami, E. Hydrodynamics of spinning particles. Phys. Rev.1998; A57: 98–105.

Tegmark, M. The importance of quantum decoherence in brain processes. Phys. Rev. 2000; 61E: 4194 (2000).

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