К статье "Магия знаков"
http://adsabs.harvard.edu/abs/2004SPIE.5436..107P
http://faculty.nps.edu/baer/CompMod-phys/PizziWebPage/pizzi.pdf
Non-local correlations between separated neural networks
Pizzi, Rita Fantasia, Andrea Gelain, Fabrizio Rossetti, Danilo Vescovi, Angelo
Quantum Information and Computation II. Edited by Donkor, Eric; Pirich, Andrew R.; Brandt, Howard E. Proceedings of the SPIE, Volume 5436, pp. 107-117 (2004).
ABSTRACT
In recent times the interest for quantum models of brain activity has rapidly grown. The Penrose-Hameroff mode assumes that microtubules inside neurons are responsible for quantum computation inside brain. Several experiment seem to indicate that EPR-like correlations are possible at the biological level In the past year , a very intensive experimental work about this subject has been done at DiBit Labs in Milan, Italy by our research group. Our experimental set-up is made by two separated and completely shielded basins where two parts of a common huma DNA neuronal culture are monitored by EEG. Our main experimental result is that, under stimulation of one culture by means of a 630 nm laser beam at 300 ms, th cross-correlation between the two cultures grows up at maximum levels.
Despite at this level of understanding it is impossible to tell if the origin of this non-locality is a genuine quantum effect our experimental data seem to strongly suggest that biological systems present non-local properties not explainable b classical models
Keywords: neurons, Microelectrode Arrays, EPR, non locality, correlation, coherence
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Correlations between brain electrical activities of two spatially separated human subjects
Abstract
Six channels electroencephalogram (EEG) were recorded simultaneously from pairs of separated human subjects in two acoustically and electromagnetically shielded rooms. While brain electric responses to visual pattern-reversal stimuli were elicited in one subject, the other subject relaxed without stimulation. EEGs of both subjects were averaged at times of stimulus onset, effective voltage of the averaged signals was computed within a running window, and expressed as ratio (Q) to the effective voltage of averaged EEG signal from non-stimulation periods. These ratios in non-stimulated subjects at the latency of the maximum response in stimulated subjects were analysed. Significant departures of Q ratios from reference distributions, based on baseline EEG in non-stimulation periods, were found in most non-stimulated subjects. The results indicate that correlations between brain activities of two separated subjects may occur, although no biophysical mechanism is known.
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Напоминание: сама статья "Магия знаков":
http://www.scientificexploration.org/journal/jse_13_2_walach.pdf
Magic of Signs: A Nonlocal Interpretation of Homeopathy
HARALD WALACH
http://faculty.nps.edu/baer/CompMod-phys/PizziWebPage/pizzi.pdf
Non-local correlations between separated neural networks
Pizzi, Rita Fantasia, Andrea Gelain, Fabrizio Rossetti, Danilo Vescovi, Angelo
Quantum Information and Computation II. Edited by Donkor, Eric; Pirich, Andrew R.; Brandt, Howard E. Proceedings of the SPIE, Volume 5436, pp. 107-117 (2004).
ABSTRACT
In recent times the interest for quantum models of brain activity has rapidly grown. The Penrose-Hameroff mode assumes that microtubules inside neurons are responsible for quantum computation inside brain. Several experiment seem to indicate that EPR-like correlations are possible at the biological level In the past year , a very intensive experimental work about this subject has been done at DiBit Labs in Milan, Italy by our research group. Our experimental set-up is made by two separated and completely shielded basins where two parts of a common huma DNA neuronal culture are monitored by EEG. Our main experimental result is that, under stimulation of one culture by means of a 630 nm laser beam at 300 ms, th cross-correlation between the two cultures grows up at maximum levels.
Despite at this level of understanding it is impossible to tell if the origin of this non-locality is a genuine quantum effect our experimental data seem to strongly suggest that biological systems present non-local properties not explainable b classical models
Keywords: neurons, Microelectrode Arrays, EPR, non locality, correlation, coherence
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Correlations between brain electrical activities of two spatially separated human subjects
- a Department of Empirical and Analytical Psychophysics (EAP), Institute for Frontier Areas of Psychology, Wilhelmstrasse 3a, D-79098 Freiburg i.Br., Germany
- b Institute of Environmental Medicine and Hospital Epidemiology, University Hospital, Freiburg, Germany
- c University of Freiburg, Postgraduate Programme in Cognitive Sciences, Freiburg, Germany
Abstract
Six channels electroencephalogram (EEG) were recorded simultaneously from pairs of separated human subjects in two acoustically and electromagnetically shielded rooms. While brain electric responses to visual pattern-reversal stimuli were elicited in one subject, the other subject relaxed without stimulation. EEGs of both subjects were averaged at times of stimulus onset, effective voltage of the averaged signals was computed within a running window, and expressed as ratio (Q) to the effective voltage of averaged EEG signal from non-stimulation periods. These ratios in non-stimulated subjects at the latency of the maximum response in stimulated subjects were analysed. Significant departures of Q ratios from reference distributions, based on baseline EEG in non-stimulation periods, were found in most non-stimulated subjects. The results indicate that correlations between brain activities of two separated subjects may occur, although no biophysical mechanism is known.
----------------------------------
Напоминание: сама статья "Магия знаков":
http://www.scientificexploration.org/journal/jse_13_2_walach.pdf
Magic of Signs: A Nonlocal Interpretation of Homeopathy
HARALD WALACH