Prespacetime Journal

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Three anomalies related to hadron physics will be discussed. First anomaly relates to proton spin puzzle. The latest discovery is that there are more d^- type sea quarks than u^- type sea quarks in proton - this is difficult to understand in QCD picture. The contribution of d^- quarks to the spin of proton is however smaller than u^- type sea quarks. TGD suggests that the notion of sea quark should be replaced with quarks associated with the ends of color flux tubes connecting valence quarks to a triangle like structure. This allows one to understand the anomaly and also why old Gell-Mann model works so well. Also the mass of proton can be deduced with high precision from p-adic mass calculation as will be found. Also the old Aleph anomaly has made a comeback. TGD explanation is in terms of scaled-up variants of b quark forming pion and ρ meson like bound states. One ends up with the identification of production mechanism for both 55 GeV pion-like state and pion and ρ meson like bound states with mass 28 and 30 GeV. The third anomaly is evidence for a new bump with 400 GeV at LHC assumed to be created by gluon-gluon fusion via top quark pair to parity odd state tentatively identified as pseudoscalar Higgs predicted by SUSY scenarios. The mass happens to exactly 512 times that of pseudovector meson ω and one can consider the identification as ρ meson of M₈₉ hadron physics predicted by TGD encouraged also by the large 5 per cent decay width compared to decay with of order 10^-5 for ordinary Higgs.