$Z_0(57)$ and $E(38)$: possible surprises in the Standard Model

TL;DR

The paper suggests the possible existence of two new bosons, Z_0(57) and E(38), based on experimental hints and theoretical considerations, which could indicate surprises beyond the current Standard Model.

Contribution

It introduces the hypothesis of two new bosons, Z_0(57) and E(38), supported by experimental data and theoretical arguments, challenging the completeness of the Standard Model.

Findings

Hints of a new boson Z_0(57) at 57 GeV from multiple experiments

Evidence for a light boson E(38) at 38 MeV decaying into two photons

Recent experimental confirmation of E(38) at JINR Dubna

Abstract

With the reported observation of the Higgs boson at the LHC, the Standard Model of particle physics seems to be complete now as for its particle content. However, several experimental data at low and intermediate energies indicate that there may be two surprises. First we propose a tentative new boson $Z_0(57)$, with a mass of about 57 GeV, on the basis of small enhancements we observe in several experiments, using recent data obtained at the LHC as well as much older ones from LEP. If confirmed, we interpret this new particle as a pseudoscalar or scalar partner of a composite $Z$ vector boson. Secondly, we advocate the existence of a very light spinless boson $E(38)$, probably a scalar, with a mass of 38 MeV and decaying into two photons. Theoretical arguments and experimental signals supporting such a novel light boson will be presented, including a recent direct experimental confirmation at the Joint Institute for Nuclear Research in Dubna.