I believe that the stimulation frequency is a major issue. What binds the proton condensation? Phonons. These phonon bonds are weak. Convention has it to cool the condensate. The cooling will eliminate lattice vibrations from disrupting the condensate. The cooling process, needless to say, is not useful for heat production. Another unconventional way exists for strengthening the condensate. This method increases the amplitude of the phonons that bind the condensate. I call it a hyperconductive system. What stimulation frequency is needed to bind the condensate? It depends on the coherence length of the condensate. The constant describing this is 1.094 megahertz-meters. The stimulation frequency determines the coherence length. A condensate that is strongly stimulated in the RF spectrum should generate radio waves. No low efficiency thermal converter is needed. Would this be a gift from god or from secular thinking?. Frank Znidarsic
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