This is an amazing result that is relavent to LENR. The fact that vibration can induce superconducivity. Vibrations normally destroys superconductivity; however, vibration at the right frequency inhances superconductivity. >From my book: pasted below. A low energy nuclear reactor (LENR) is constructedof palladium or nickel. Hydrogen isdriven into the metal. The dissolvedhydrogen is not bound. It is, however,confined at the extent of the nano-particle. The metallic lattice naturally resonates at thermal frequencies (1012hz). This vibration is enhanced withheat, laser light, or radio waves. Nanometer scaled domains couple strongly with the external stimulation.35
Typically, vibration destroyssuperconductivity. This author’sanalysis has shown that vibration, at a dimensional frequency of onemegahertz-meter, enhances superconductivity36. This effect was experimentally confirmed atthe max Planck institute in 201441. “Terahertz-frequency(1012 hz) optical pulses can … induce superconductivity”. Roman Mankowsky, The MaxPlanck Institute41 Vibration can reinforce an electronic condensate andinduce a warm, above room temperature, superconductivity. This vibration can also adjoin non-boundprotons to the condensate. In thegravitomagnetic devices, a lower frequency radio frequency of vibration (106hz) is transferred to the loosely-bound heavy nucleons that rest between thelayers of a superconductive disk. Thesevibrationally reinforced condensates are a new state of matter. The composite state is reminiscent of J.J.Thompson’s “plumb pudding” model of matter. Low energy thermal vibration has a high energyeffect at the scale of these condensed nano-domains. The stimulation imposes a speed of 1,093,850meters across a cluster of nucleons. Theaction drives the electromagnetic, gravitomagnetic, and the nuclear magneticspin orbit force to the surface of the nano-domain. The system enters into a state of continuous quantumtransition. “The constants of the motion tend toward those of the electromagnetic” and the reaction proceeds.