Posts are combined and improved as follows: IMHO, magnetism is not stimulative. Iron provides magnetic containment up to a reactor operating temperature of 770C. At 770C, the Curie point is exceeded and the iron is ineffective as a magnetic material. The Glowstick requires temperatures over 1000C to startup. The is no material that can be used as an outside container above 1100C because of the Curie point. That is why a sinusoidal coil is the only device that can force magnetic material to the center of the reactor tube.
Could it be that the three coils in the Rossi reactor are used for different things: one coil is used as a heater, another used as a sinusoidal magnetic containment coil, and the last for RF stimulation? Notice the three wire connections on the Hot Cat coils. But things are not as simple as that. The Rossi's control system produces complex waveforms. Could these complex waveforms produce the three functions of heating, magnetic containment and RF stimulation? https://patentscope.wipo.int/search/docservice_image_drawings/WO@@@id00000030363131@@@10873194@@@200@@@0@@@000059.tif It may be possible to multiplex the three required waveforms that perform the three functions of heating, magnetic containment and RF stimulation into a square wave. Is there anybody here who can dope out that required squarewave to duplicate Fulvio Fabiani's work? >From another perspective: http://www.currentscience.ac.in/Volumes/108/04/0565.pdf "AHE has been observed during electrolysis following dynamic stimulation of the cell by time dependent electrolytic currents (SuperWaves) and ultrasonic excitation." The "SuperWave" remains protected IP of Dardik. But in current replication attempts three separate coils could be used. A this early juncture, it is easier to adjust each waveform component separately. Then there is no need to do a complex waveform calculation to change something. There is a beautiful animation by LucasVB explaining the Fourier decomposition of a square wave: [image: Inline image 2]
