Thursday, December 27, 2012

1212.5830 (Vali A. Huseynov)

Impossibility of production of Higgs boson with mass around 126 GeV via
charged vector boson fusion channel and identification of higgs-like particle
discovered at LHC
   [PDF]

Vali A. Huseynov
In this work we investigate the production of a single neutral boson with spin 0 and 2 via the weak charged vector boson fusion channel and discuss the questions connected with the search of the Standard Model scalar Higgs boson in the CMS and ATLAS experiments at the Large Hadron Collider. It is shown that a single neutral scalar boson with the mass around 126 GeV can not be produced via the known weak charged vector boson fusion channel. The impossibility of production of a single neutral scalar boson in the mass range below 160.770 GeV due to the energy and spin conservation laws and the possible production of a single neutral boson with the spin J=2 and the spin projection J_z=+2 in that region enable us to come the conclusion that the single neutral boson with the mass 125.3 GeV/126 GeV discovered in the CMS and ATLAS experiments is neither the Standard Model Higgs boson nor a scalar boson at all. The neutral boson with the mass 125.3 GeV/126 GeV discovered in the CMS and ATLAS experiments is a new neutral boson with the spin J=2 (a tensor particle) and the spin projection J_z=+2 that is not included in the Standard Model. Both the P-parity and charge conjugation C of this new particle are +1. So, the newly discovered particle with the mass 125.3 GeV/126 GeV is a neutral boson with the spin J=2 (a tensor particle) and the spin projection J_z =+2 that is characterized by J^PC=2^++ quantum numbers under intrinsic parity and charge conjugation and CP=+1.
View original: http://arxiv.org/abs/1212.5830

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