I know the resistive IR is much lower than the anomalous spectrum reported by Mills but if it causes the plasmons in the active material to resonate at a higher harmonic this would bring it much closer. I also wonder about the applicability of spectrum measurements to the active environment. I am pretty sure we see only an average of the spectrum from the lattice and both sides of the active geometry - my posit is that fractional Rydberg h result in lower frequency while Rydberg h results in higher and that both can occur but the active geometry [cavity] favors fractional formations so I would expect to see the hydrogen spectrum broadened but more so on the low side.
I also wonder if resonance can occur between fractional states where f/h2 disassociates and recombines in synch with the plasmon resonance and that photons emitted from these fractional state hydrogen is responsible for the spectrum spread claimed by Mills. I had a passing notion that the 20% metronome effect might even extend to favoring a specific pair of fractional states to oscillate between- the spectrum anomaly is caused by the slaved disassociations of fractional states and there may exist favored pairs. Does anyone know how consistent the Mill's claimed spectrum is? Fran
