Comment on “Weighing the W boson” based on Geier’s Newton’s cradle; Claudio Campagnari, Martijn Mulders, An upset to the standard model, high-precision measurement of the w boson mass with the cdf ii detector, Science, 376, 6589, (136-136), (2022)./doi/10.1126/science.abm0101
Comment on “ Weighing the W boson” based on Geier’s Newton’s cradle Our “Quantum Interpretation“ of the bifilar pendulum (experimentally compared to Newton’s cradle) suggests that every determination of mass should be coupled with an about (at least) 1 % Higgs-filed-graviton-mass-interaction of measurement by the relation HIGGS-coupling 0.000002 / damping(bifilar pendulum = 0.0002) = 0.01. If you apply this to a nucleon (thus co-determined by W-bosons) and electron determined steel ball system interaction you reach a value of 3.33 per mille: HIGGS-coupling 0.000002 / damping(Geier Newton’s cradle = 0.0006) / = 0.0033. The deviation of the Tevatron W-boson measurement to the theoretical standard model value of the mass of the W-boson is .95 per mille; however this is lower than our 3.33 per mille quantum correction we would expect. Fur thermore, if you bring in Max PLANCK’s Wirkungsqua ntum h, respectiv e pi ( π =h/2ħ) , which we would prefer, you gain a 10/pi = 3.18 per mille