Abstract:
The products obtained through a low-energy electric discharge between carbon electrodes in glycerin's water solution are investigated by means of mass spectrometry, raster electronic microscopy, and X-ray fluorescence analysis. The residue formed during experiment is found to possess chemical composition differing from the initial components in its chemistry and microstructure. The mechanism and the catalyst of a low-energy nuclear transformation course are discussed.
Keywords:liquid, electric discharge, low-temperature plasma, magnetic field, transformation of chemical elements.