Quote from Hermes: “So my advice would be to replicate experiments which produce radio-activity but instrument them properly so the products and reactions can be identified.”
I posted the paper which explains everything.., which is actual (ongoing…
Perhaps you posted the wrong paper?
The only part of this about He measurements is:
QuoteHelium measurements for early kHz cavitation systems were carried out in three laboratories: in 1991, by Dave Thomas at Stanford Research Institute (SRI); in 1992–1993 by Dr. Davidson of the US Bureau of Mines in Amarillo, TX; and in 1994-5, samples taken at Los Alamos National Laboratory (LANL) were analyzed by Brian Oliver at the Department of Energy, DOE, facility at Rocketdyne, CA. Brian Oliver also used MS measurements to track a sample of Ti target foil gases that change over time, showing decay of T to 3He at the rate of the disintegration constants confirming the origin of the growing 3He [3]. The Appendix at the end of this paper provides details on these measurements . Reproducibility in He measurements suggested inefficient cavitation due to small variations in temperature, pressure, and acoustic input parameters. Thus, subsequent versions of resonators introduced the MPPC, new technology from Hamamatsu, which measures PE and couples it with significant changes to the MHz acoustic input, Qa, suppressing small effects in resonator’s T and P. This innovation in the MHz system produced better photon cavitation tracking. The MHz calorimetry, with no costly He measurements, was the basis for the Qx determination.
This is referencing other work, and not providing any insight into the referenced methodology