Milligauss magnetic field triggering reliable self-organization of water with long-range ordered proton transport through cyclotron resonance

Reliable experimental results were obtained using a small magnetic field of several milligauss in amplitude and twin cyclotron resonance frequencies for electrical resistivity decreasing phenomena in highly purified water and forming a highly stable water for resistivity showing a small change with a limit cycle for the water temperature variations. The effect of the twin frequency field was predicted from a water self-organization model in which long-range ordered proton transport paths were formed by gathering same size hydromolecular clusters through cluster cyclotron resonance with an external applied ac magnetic field under the geomagnetic field. Measurements of the O¹⁷-nuclear magnetic resonance supports the self-organization model with a wider resonance curve for magnetized water. The milligauss field with twin cyclotron frequencies is generated using an amplitude over modulation waveform in a function generator and is widely applicable to activate various bio effects in living bodies.