I think sonofusion and cold fusion are the same. The bubble effect on H/D is essentially like cracks, like what Ed says. And even the same case bellow.
(Cold fusion and even heat after death, for me, is caused after submitting H/D to pressures of 10^11Pa and submitted to thermal energy than ~0.1eV.) I hope to get my printer to work as soon as possible, since I concentrate more on write something about why this is the case. But, the emission of cold fusion is typically between 10~<E~<10KeV (otherwise, it would be already detected). See these ones: http://lenr-canr.org/acrobat/MileyGHintensenon.pdf http://lenr-canr.org/acrobat/LipsonAGanomalouse.pdf http://www.lenr-canr.org/acrobat/KarabutABexperimentb.pdf http://www.lenr-canr.org/acrobat/MileyGHfuturepowe.pdf It's nearly completely blocked within nanometers of the source, or micrometers, even in air. I think these types of experiments could be a way to start. Maybe a very very tiny CF reactor, similar to what you used, would be a way to detect this type of radiation in abundance. 2016-05-27 20:09 GMT-03:00 Russ George <[email protected]>: > . My sonofusion reaction was and is easily scalable to generate hundreds > of kilowatts steady state output running with duty cycled input of a > fraction of 1% of the output. Such sonofusion development to large scale > energy production would cost a few million to refine into devices that > would cost mere thousands to mass produce. > > >
