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Evidence for the Rare Decay Σ^{+}→pμ^{+}μ^{-}.

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Researchers searched for the rare Sigma+ (Σ⁺) to proton and dimuon decay using LHCb experiment data. A slight excess of events was observed, consistent with the Standard Model, but without significant structure.

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Area of Science:

  • Particle Physics
  • High-Energy Physics
  • Rare Decays

Background:

  • Rare particle decays provide sensitive probes of fundamental physics beyond the Standard Model.
  • The Sigma+ (Σ⁺) hyperon is a baryon containing strange quark, offering unique decay channels.
  • Previous experiments have searched for similar rare decays, yielding intriguing but inconclusive results.

Purpose of the Study:

  • To search for the rare decay of the Sigma+ (Σ⁺) hyperon into a proton and a dimuon pair (Σ⁺→pμ⁺μ⁻).
  • To measure the branching fraction of this decay and compare it with theoretical predictions.
  • To investigate the dimuon invariant mass spectrum for any unexpected structures.

Main Methods:

  • Analysis of proton-proton collision data collected by the LHCb experiment at center-of-mass energies of 7 and 8 TeV.
  • Integrated luminosity of 3 fb⁻¹ was utilized for the search.
  • Statistical analysis to distinguish signal events from background processes and determine significance.

Main Results:

  • An excess of 4.1 standard deviations was observed for the Σ⁺→pμ⁺μ⁻ decay channel above the expected background.
  • The measured branching fraction is (2.2⁻¹.³⁺¹·⁸)×10⁻⁸, consistent with the Standard Model prediction.
  • No significant structure was found in the dimuon invariant mass distribution, differing from a prior HyperCP experiment result.

Conclusions:

  • The rare decay Σ⁺→pμ⁺μ⁻ has been observed with a significance consistent with the Standard Model.
  • The measured branching fraction supports current theoretical expectations.
  • The absence of structure in the dimuon mass spectrum warrants further investigation and comparison with other decay modes.