One reason that local superconductivity around "tiny domains" (or NAE, or Casimir cavities, or excitons etc) would be an important feature of LENR, especially when found with the SPP (surface plasmon polariton) is that the strong electric field of the SPP will "ring" longer - for an extended period of time, rather than simply short.
You can imagine a natural kind of "nano-tornado" in the sense that local superconductivity - even if it is present for only milliseconds, providing magnetic containment and pressurization for dense hydrogen clusters. This would be the appropriate time to flash the famous and memorable Book Cover image - which graces the JR translation of Mizuno. (free plug for the book) http://www.amazon.ca/Nuclear-Transmutation-Reality-Cold-Fusion/dp/1892925001 People have speculated that hyper-loaded palladium hydrides might be high temperature superconductors. The entire cathode is probably not an HTSC, but it might be one over tiny domains. Cold fusion occurs over tiny domains, so that's all you need. Loading is not even across the entire cathode. It is much higher in some spots than others. Here is a citation but I have not been able to get hold of the full text. "Possibility of high temperature superconducting phases in PdH". Tripodi, P.; Di Gioacchino, D.; Borelli, R.; Vinko, J. D. (May 2003). Physica C: Superconductivity. 388-389: 571-572. .
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