On the contrary, the storage of energy is at the core of the LENR reaction. Photons are stored in the SPPs and on hydrogen Rydberg matter. X-rays occurs when SPPs release their energy. When the SPP are coherent in a BEC, heat photons are released.
If the BEC of SPP is destroyed, all the energy stored in the BEC would be released in a burst. I predict that when excess heat is produced in a LENR experiment, if a very large magnetic field is applied to that BEC, all the stored energy will be released as XUV and x-rays in a burst as the BEC is destroyed by the externally applied magnetic field. On Fri, Feb 26, 2016 at 9:57 AM, Jed Rothwell <jedrothw...@gmail.com> wrote: > H LV <hveeder...@gmail.com> wrote: > > >> My reading of the active data set begins with the storage of energy >> for the first 19 hrs and ends with the periodic release of energy for >> the last 9hrs. 'Excess Heat' is not evident. >> > > I doubt there is a mechanism that would allow significant energy storage > in this system. I think you seeing a deficit in the first 19 hours because > the calorimetry does not capture all of the heat. > > > >> Based on this reading, is it possible to explain the amount of energy >> stored and released using just chemistry? >> > > What chemistry? Why hasn't it been seen before? > > - Jed > > >
