1 amu = 931.46 MeV/c2 or alternatively 1 GeV = 1.074 amu. Ergo 125 GeV =~ 134 amu.
The reported anomaly identified with the Higgs boson or field is at 125 GeV but that does not mean that 134 amu is a usable value for the equivalent rest mass. Xenon has an stable isotope with mass at 134 and that argues against this being the precise mass of the Higgs boson, or whatever was identified recently in data that every PR firm in the world is being paid to pump up as if it were actually really a god ... and even though all of these analogies is bit like comparing apples to oranges. However, there is other evidence indicating that the rest mass of the particle in question would be less. I have accumulated some hints that suggest it is lower - around 126 amu. At this level, there could be repercussions in 3-space with a few adjoining isotopes, especially if the Higgs field were a fractal space which we can identify with aether. Understanding this would open the door to how a higher dimension can interact with 3-space. It should be noted that among the dangerous or proscribed materials that citizens of the USA cannot possess under The Code of Federal regulations of the United States of America, are two tellurium nuclear isomers with amu of 125 and 127. Probably coincidence, as is that gap at iodine 126. Jones
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