From: Jones Beene
* I was careful to avoid 'ultrasound' per se. In fact we can rule it out at the levels of 20 kHz to one MHz, which is the normal range. At the nano-dimensions, however, phonon mobility can take frequency levels much higher. It would not surprise me to see a novel kind of cavitation effect in "pycno," or dense hydrogen clusters - which is based on infrared frequencies. Let me remove the typo and expand on this a bit. Pycno is dense and mobile, as is nano-nickel. There is lots of activity at the terahertz frequency range (IR heat). This happens with or without lower harmonics, but if lower harmonics are provided and magnetostriction should accentuate that - as in the Energetics version of 'superwaves' - then the stage is set for massive pressure excursions (the so-called rogue wave) which are far above the prior art in ultrasound (Stringham, etc). Jones
