Authors: Sylwester Kornowski
The strong coupling alpha_s for energy equal to the mass of the Z boson is one of the fundamental parameters of the Standard Model (SM). By 2014 this value was 0.1185 +- 0.0006. But the recent LHC experiments (paper was submitted on December 16, 2015) changed this value to a new world average: 0.1177 +- 0.0013 (arXiv:1512.05194). The new value is consistent with the value predicted within the Scale-Symmetric (SST) already 3 years ago: 0.1176 +- 0.0005. This result was published in vixra on December 16, 2012 (vixra:1212.0105). Moreover, the interval +- 0.0005 predicted by SST does not follow from uncertainties but from natural processes so uncertainties defined in LHC experiments cannot be lower than this interval. Notice that the SST result as a whole lies inside the interval defined by the new LHC experiments and that the central values differ by 0.0001 only. We can say that at high energies, the SM mimics the SST results but at low energies, contrary to SST, the SM does not lead to precise values, for example, within SM we cannot calculate the exact mass and spin of proton.
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[v1] 2016-02-22 05:06:58
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