High Energy Particle Physics


126 Gev Boson Constitutes Higgs Charged Boson and W Boson

Authors: U .V . S. Seshavatharam, S. Lakshminarayana

It is suggested that, in super symmetry, the fermion and boson mass ratio is equal to 2.62218404 but not unity. Based on strong nuclear gravity and super symmetry it is suggested that: there exists a charged Higgs fermion of rest energy 103125 MeV. Its charged susy boson rest energy is 45586 MeV. The charged Higgs fermion and nuclear charge radius play a crucial role in the emission of the electron in Beta decay. The recently discovered neutral boson of rest energy 123 to 127 MeV seems to be composed of a Higgs charged boson and a W boson. Its obtained rest energy is 126 GeV.

Comments: 9 Pages. SUSY and strong nuclear gravity in (120-160) GeV mass range. Hadronic journal, Vol-34, No 3, 2011 June, p277-300

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[v1] 2011-12-17 12:31:04

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