Prediction of existence of neutral boson with spin 2 in energy (mass) range from zero to 160.77 GeV
Vali A. Huseynov
TL;DR
This paper predicts the potential existence of a neutral spin-2 boson with a mass up to 160.77 GeV, based on decay analysis in magnetic fields, highlighting the most promising candidate among several spins.
Contribution
It introduces a theoretical prediction of a neutral spin-2 boson in a specific mass range, based on decay processes in magnetic fields, which is a novel insight.
Findings
Neutral boson with spin 2 is the most promising candidate.
Mass range for the boson is from zero to 160.77 GeV.
Decay analysis supports the existence of this boson.
Abstract
We investigate the decay of an arbitrary neutral boson into a pair of on-shell W-bosons in a magnetic field. The possible existence of the new neutral bosons with the spins 0, 2, 3 and with the charge conjugation C=+1 in the energy (mass) range from zero to 160.77 GeV is predicted. The analyses show that the existence of the neutral boson with the spin 2 in the energy (mass) range from zero to 160.77 GeV is more promising and realistic.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · Dark Matter and Cosmic Phenomena