Journal of High Energy Physics (Apr 2022)

Precision tests of quantum mechanics and CPT $$ \mathcal{CPT} $$ symmetry with entangled neutral kaons at KLOE

  • The KLOE-2 collaboration,
  • D. Babusci,
  • M. Berlowski,
  • C. Bloise,
  • F. Bossi,
  • P. Branchini,
  • A. Budano,
  • B. Cao,
  • F. Ceradini,
  • P. Ciambrone,
  • F. Curciarello,
  • E. Czerwiński,
  • G. D’Agostini,
  • R. D’Amico,
  • E. Danè,
  • V. De Leo,
  • E. De Lucia,
  • A. De Santis,
  • P. De Simone,
  • A. Di Cicco,
  • A. Di Domenico,
  • E. Diociaiuti,
  • D. Domenici,
  • A. D’Uffizi,
  • A. Fantini,
  • G. Fantini,
  • P. Fermani,
  • S. Fiore,
  • A. Gajos,
  • P. Gauzzi,
  • S. Giovannella,
  • E. Graziani,
  • V. L. Ivanov,
  • T. Johansson,
  • X. Kang,
  • D. Kisielewska-Kamińska,
  • E. A. Kozyrev,
  • W. Krzemien,
  • A. Kupsc,
  • P. A. Lukin,
  • G. Mandaglio,
  • M. Martini,
  • R. Messi,
  • S. Miscetti,
  • D. Moricciani,
  • P. Moskal,
  • A. Passeri,
  • V. Patera,
  • E. Perez del Rio,
  • P. Santangelo,
  • M. Schioppa,
  • A. Selce,
  • M. Silarski,
  • F. Sirghi,
  • E. P. Solodov,
  • L. Tortora,
  • G. Venanzoni,
  • W. Wiślicki,
  • M. Wolke

DOI
https://doi.org/10.1007/JHEP04(2022)059
Journal volume & issue
Vol. 2022, no. 4
pp. 1 – 21

Abstract

Read online

Abstract The quantum interference between the decays of entangled neutral kaons is studied in the process ϕ → KSKL → π + π − π + π − , which exhibits the characteristic Einstein-Podolsky-Rosen correlations that prevent both kaons to decay into π + π − at the same time. This constitutes a very powerful tool for testing at the utmost precision the quantum coherence of the entangled kaon pair state, and to search for tiny decoherence and CPT $$ \mathcal{CPT} $$ violation effects, which may be justified in a quantum gravity framework. The analysed data sample was collected with the KLOE detector at DAΦNE, the Frascati ϕ-factory, and corresponds to an integrated luminosity of about 1.7 fb −1, i.e. to about 1.7 × 109 ϕ → KSKL decays produced. From the fit of the observed ∆t distribution, being ∆t the difference of the kaon decay times, the decoherence and CPT $$ \mathcal{CPT} $$ violation parameters of various phenomenological models are measured with a largely improved accuracy with respect to previous analyses. The results are consistent with no deviation from quantum mechanics and CPT $$ \mathcal{CPT} $$ symmetry, while for some parameters the precision reaches the interesting level at which — in the most optimistic scenarios — quantum gravity effects might show up. They provide the most stringent limits up to date on the considered models.

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