Abstract
Two persistent questions have been: 1. Why is it often necessary to wait for a finite period of time before the Excess Heat effect is observed after palladium (Pd) has been sufficiently loaded with deuterium (D), that the near full-loading condition (PdDx, 0.85 ~< x→1) that is required for Excess Heat, has been achieved? 2. Is it possible to identify physical properties of the materials and/or crystals that are used that might be playing a role in the interval of time associated with this phenomenon? Recently, I generalized conventional energy band theory to address both questions. The new theory can explain these experimental results but will be ignored by most scientists. I suggest that this is expected: The context of energy band and Ion Band State (IBS) theory is very different from the context of hot fusion theory. Even within the Low Energy Nuclear Reactions (LENR) field, hidden, simplifying assumptions exist, which implicitly reflect biases associated with the context of hot fusion. A typical example is the idea that a single, particular form of reaction or environment can explain all LENR phenomena. As opposed to such a picture, involving a single “nuclear active environment” (“NAE”), the context of IBS theory and many-body physics suggests a more realistic and useful description of LENR involves a multiplicity of “nuclear active environments” (NAE’s).
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