Wednesday, March 5, 2014

The dynamics of vacuum adjustment

The vacuum sets its own phase to minimize phase relative  minimize phase of the next sample. It does this at Nyquist at Nyquist SNR. It mainly measures disturbance, and when the next minimal phase sample is to take a chomp of disturbance, the vacuum will chomp. Basically, from the fixed set of vacuum samples, a few get their phase restored closer to zero, and one gets its phase shifted, in the other direction, closer to zero. The vacuum just measures phase and chomps. So, a sample off vacuum sees a chap on his left, and one his right, and if the phase meter jumps within Nyquist, of Zero, does a left right chomp, leaving left right samples much closer to phase zero. It wants minimum simultaniety.

What is the Higgs? By definition, the smallest quant of disturbance that can be chomped by the vacuum.  Is is matter near the Nyquist noise level.  Way down at the short end. We would be looking at mass order, and likely see variations of the quantized disturbance, and slightly different standard models, down there.

Nuclear order in the vacuum of space might be a reality. Small little worlds, of very low mass. When they wave, we get a free proton. They hit is with nuclear electro wave. The vacuum doesn't care, let quants fall downward, (by wave mass transfer). The rubble being pushed upward, where it ultimately gets crowded and chomped; phased alignment from short to long.  The vacuum is squeezing the short, trying to get it quantized to a higher level. Like boiling stew.

OK, Higgs again. That is the bosonic world and emits boson protonic waves to the proton world. One up from Nyquist, look two orders heavier than the electron. The boson, looks like a proton would look to us. The vacuum likely has one miss out of every three, some small number, when chomping Bosons, relative to Nyquist. Get a good estimate of SNR, and mass relationship between protons and bosons. Protons much lighter, likely. Lay out the longest complete sequence, and,.. wait, that's what those boson hunters were doing in the first place! Or, in other word, in the univverse, there can only a bit more than 1.2 vacuum.

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