Hi, If microwaves can resonate with a cavity, then perhaps hydrogen atoms can too. 27.2 eV corresponds to a wavelength of 45.589 nm, but multiples of the frequency (i.e. higher values of "m"), would be correspondingly shorter wavelengths, which would also resonate. In short, 45.6 nm cavities might trigger hydrino collapse, where energy is passed to the cavity, iso to another atom during a collision.
It may be possible to produce such cavities by sintering finely divided nickel powder made from carbonyl nickel. The size of the cavity might be regulated by the temperature and pressure applied during the sintering process. Being a metal, the sintered product would conduct heat reasonably well, and being made of nickel, it would catalyze the breakup of H2 into H atoms, or might even be used as a cathode in an electrolysis cell. For carbonyl nickel powder see:- http://www.reade.com/Products/Elements/carbonyl_nickel.html http://www.thomasregisterdirectory.com/alloys/nickel_powder_0016180_1.html http://www.nornik.ru/en/production/products_chemical/27/ (smallest .45-.6 micron) Even particles that are too large may still work, if the cavity size is a multiple of the wavelength. So 0.45 micron particles, might still result in many useful cavities. Regards, Robin van Spaandonk <[EMAIL PROTECTED]>
