Direct evidence for Z' a la TGD and M₈₉ J/Psi

The bumps indicating the presence of new physics predicted by TGD have begun to accumulate rapidly and personally I dare to regard the situation as settled: individual bumps do not matter but when an entire zoo of bumps with predicted masses emerges, the situation changes (see this, this and this). Colleagues (especially the finnish ones) will encounter quite a demanding challenge in explaining how it is possible that I am still forced visit in bread quee in order to cope with the basic metabolic needs;-).

Lubos told that there is direct evidence for Z' boson now: earlier the evidence was only indirect: breaking of universality and anomaly in angle distribution in B meson decays. Z' bump has mass around 3 TeV. TGD predicts 2.94 TeV mass for second generation Z breaking universality. The decay width by direct scaling would be .08 TeV and is is larger than deviation .06 TeV from 3 TeV. Lubos reported half year ago about excess at 2.9 GeV which is also consistent with TGD prediction.

Lubos tells also about 3 sigma bump at 1.650 TeV assigned to Kaluza-Klein graviton in the search for Higgs pairs hh decaying to bbbar+ bbbar. Kaluza-Klein gravitons are rather exotic creatures and in absence of any other support for superstring model they are not the first candidate coming into my mind. I do not know how strong the evidence for spin 2 is but I dare to consider the possibility of spin 1 and ask whether M₈₉ hadronic physics could allow an identification for this bump.

1. Very naively scaled up J/Psi of M₁₀₇ hadron physics having spin J=1 and mass equal to 3.1 GeV would have mass 1.585 TeV: error is about 4 per cent. The effective action would be based on gradient coupling similar in form to Zhh coupling. The decays via hh → bbbar+bbbar could take place also now.
2. This scaling might be too naive: the quarks of M₈₉ might be same as those of ordinary hadron physics and only the color magnetic energy would be scaled up by factor 512. c quark mass is equal 1.29 GeV so that the magnetic energy of ordinary J/Psi would be equal to .52 GeV. If so, M₈₉ version of J/Psi would have mass of only 269 GeV. Lubos tells also about evidence for a 2 sigma bump at 280 GeV identified as CP odd Higgs - this identification of course reflects the dream of Lubos about standard SUSY at LHC energies. However, the scaling of eta meson mass 547.8 MeV by 512 gives 280.4 GeV so that the interpretation as eta meson proposed already earlier is convincing. The naive scaling might be the correct thing to do also for mesons containing heavier quarks.

Colleagues have realized that history is in making. I read from popular article that theoreticians left their ongoing projects and have started to study 750 GeV bump and certainly also other bumps. Ellis talked already about entire new physics. TGD message has gone through! But no one mentions TGD although all is published in Huping Hu's journals and in Research Gate! No need for this in the recent science community based on ethics of brutal opportunism: steal, lie, betray as hippies expressed it.

See the article Indications for the new physics predicted by TGD and chapter New Particle Physics Predicted by TGD: Part I.