@inproceedings{d9ed4aec42c14adcadb74acd5b209d9d,
title = "Clustered water and bio-signal networks",
abstract = "The Meridian system conceived by the ancient Chinese has been described and referenced for thousands of years. We previously proposed a hypothesis that it might be a bio-signal network via the cluster water-wire. Suchwire is not only a good carrier for energy and nutrition, but also proton or electron resonant frequency signals. The foundation is that cluster water (CW) may have certain memory-holding properties. To measure the frequency signals in water directly, we performed a series of resonant frequency imprinting studies using Quantum FAFA equipment. The resonant frequency valley of CW is found to be significantly different from that of distill water (DW). In another experiment, we used regular CW as the reference, while another CW was imprinted with additional low frequency signal. The result shows that several new resonant frequency peaks have been detected in the new imprinted CW compared with non-imprinted CW control. We believe that the research may open a novel way to tackle the mystery of the Meridian system and related bio-signal networks.",
keywords = "Bio-signal network, Clustered water, Ditill water, Meridian system, Resonant frequency",
author = "Jingong Pan and Lee, {H. Lorenzen} and Francisco Carrillo and Huawen Wu and Mengchu Zhou and Wang, {Zhi Y.}",
year = "2004",
language = "English (US)",
isbn = "0780386442",
series = "2004 IEEE Conference on Cybernetics and Intelligent Systems",
pages = "901--906",
booktitle = "2004 IEEE Conference on Cybernetics and Intelligent Systems",
note = "2004 IEEE Conference on Cybernetics and Intelligent Systems ; Conference date: 01-12-2004 Through 03-12-2004",
}