There is a LENR strength component that changes the character and the types of nuclear processes and transmutation produces that are manifest in various LENR reactor reactions.
In the Rossi reactor, the strength level of the reaction is the weakest in this example. The Rossi reaction only affects transmutation of Ni62 and Ni64 in the nickel powder There is other transmutations going on but we will keep the discussion about nickel in the Ni/H reactors.. In the DGT reactor, the strength of the LENR reaction is on an intermediate level. The DGT reactor can affect the nuclei of Ni58 and Ni60 as well as Ni62 and Ni64. And the heaviest transmuted element observed is lead. On the other side of the coin, in the LeClair reactor, the LENR reactor is the strongest reaction observed. This LENR reaction level can affect nuclei with both even and odd number of nucleons. This type of reaction can produce heavy elements well into the transuranic range. Interestingly, LeClair reports that both the chlorine stable isotopes Cl35 and Cl37 are transmuted into unstable chlorine nuclei Cl39 from LeClair as follows: “The radiation emitted by the reactor left nuclear tracks, burned the hole pattern of the core into the clear PVC core enclosure, activated high neutron absorption cross-section 39Cl (56 minute half-life) in the chlorine of the PVC core enclosure….” The LeClair reactor breaks the even nucleon rules where only even nucleons are affected by the reaction. I don’t buy the LeClair theory of how cavatation produces transmutation from zero point energy. Transmutation occurs because of Higgs field monopole disruption as anopole magnetism is sufficiently strong to cause the Higgs dual superconductivity in the nucleus to be disrupted with the formation of anapole magnetic nuclear filaments are generated where quarks are reordered and reconfigured. Cavatation fits into the general whispering wave resonator polariton theory in this way. All these reactors produce anapole magnetic fields of varying strength that affect the stability of nuclei in their close proximity. There is much randomness in this transmutation process where anopole fields can vary widely in strength. Because of this range in strength, sometimes fusion occurs and sometimes fission occurs as the quarks are rearranged. This process has nothing to do with high pressures or temperatures; it all comes down simply to the production of ring currents and magnetic disruption of Higgs superconductivity in the nucleus that this magnetic field produces. In the case of the cavatation bubble, the bubble acts as a micro-resonator where polariton vortex ring currents produce a negatively charged plasmoid whole anapole magnetic beam is pointed at the nearby solid surface. In sonoluminescence, the dark mode cavity confinement of the polariton plasmoid breaks down and energy from the plasmoid escapes to the far field as ultra- violet and deep blue light as the cavatation bubble collapses. When the dark mode is maintained in the cavatation bubble, the polariton plasmid vortex stays together long enough to affect the atoms on the surface of the solid material being eroded. As posted in the thread “Proton-21 and LeClair” Proton-21 reaction is similar to that produced by LeClair and may well be as strong resulting is similar levels and kinds of transmutation. In closing, please note that both LeClair and Proton-21 observe gamma radiation up to 10 MeV. This indicates that BEC is not required for the production of the LENR reaction. Its role is the thermalization of Gamma. However, the intrinsic nature of the LENR reaction does leave the ash produced by the reaction stable without producing radioactive isotopes.
