From: Axil Axil Quote from: Dr. Pamela Mosier-Boss SPAWAR Systems Center San Diego, CA
“We believe the two phenomena, LENR and high T c superconductivity, are related and that both need to be investigated in order to gain an understanding of the processes occurring inside the Pd lattice... Tripodi et al developed a method of loading and stabilizing 50 µm diameter Pd wires with Pd loadings greater than one. These samples have exhibited near room temperature superconductivity. Examples of measured superconductivity … are shown in Figure 1-2.” End of quote In addition to this – and due to the implications of the recent Mizuno findings, there is a likelihood that one form of HTSC is present well above room temperature - up to several hundred degrees C. This could be lossless spin-current (as opposed to electron flux) and need not be a bulk effect but instead a local effect of the palladium nanoparticle in a plasmon environment. This explanation adds complexity but at least none of the details rises to the incredulity level of nuclear fusion events providing kilowatts of heat with zero radiation. Ample evidence exists for both Coulomb explosions and for the well-known “proximity effect” AKA Holm-Meissner effect which may apply to elevated temperature superconductivity in an interfacial plasmonic system. A good theory exists, as Jürg proposes, for spin-current superconductivity - which is a better fit for the experiment since it also provides the impetus behind the Coulomb explosion, the locus of gain.. As always, the proof of every hypothesis will be found in the reproducible experiment. We anxiously await replication of Mizuno’s breakthrough. Jones
