EPJ Web of Conferences (Jan 2018)

The kaonic atoms research program at DAΦNE: from SIDDHARTA to SIDDHARTA-2

  • Scordo A.,
  • Amirkhani A.,
  • Bazzi M.,
  • Bellotti G.,
  • Berucci C.,
  • Bosnar D.,
  • Bragadireanu A.M.,
  • Cargnelli M.,
  • Curceanu C.,
  • Dawood Butt A.,
  • Del Grande R.,
  • Fabbietti L.,
  • Fiorini C.,
  • Ghio F.,
  • Guaraldo C.,
  • Hayano R.S.,
  • Iliescu M.,
  • Iwasaki M.,
  • Levi Sandri P.,
  • Marton J.,
  • Miliucci M.,
  • Moskal P.,
  • Pietreanu D.,
  • Piscicchia K.,
  • Shi H.,
  • Silarski M.,
  • Sirghi D.,
  • Sirghi F.,
  • Skurzok M.,
  • Spallone A.,
  • Tatsuno H.,
  • Vazquez Doce O.,
  • Widmann E.,
  • Zmeskal J.

DOI
https://doi.org/10.1051/epjconf/201818101004
Journal volume & issue
Vol. 181
p. 01004

Abstract

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The interaction of antikaons with nucleons and nuclei in the low-energy regime represents an active research field in hadron physics with still many important open questions. The investigation of light kaonic atoms, in which one electron is replaced by a negatively charged kaon, is a unique tool to provide precise information on this interaction; the energy shift and the broadening of the low-lying states of such atoms, induced by the kaon-nucleus hadronic interaction, can be determined with high precision from the atomic X-ray spectroscopy, and this experimental method provides unique information to understand the low energy kaon-nucleus interaction at the production threshold. The lightest atomic systems, like the kaonic hydrogen and the kaonic deuterium deliver, in a model-independent way, the isospin-dependent kaon-nucleon scattering lengths. The most precise kaonic hydrogen measurement to-date, together with an exploratory measurement of kaonic deuterium, were carried out in 2009 by the SIDDHARTA collaboration at the DAΦNE electron-positron collider of LNF-INFN, combining the excellent quality kaon beam delivered by the collider with new experimental techniques, as fast and very precise X-ray detectors, like the Silicon Drift Detectors. The SIDDHARTA results triggered new theoretical work, which achieved major progress in the understanding of the low-energy strong interaction with strangeness reflected by the antikaon-nucleon scattering lengths calculated with the antikaon-proton amplitudes constrained by the SIDDHARTA data. The most important open question is the experimental determination of the hadronic energy shift and width of kaonic deuterium; presently, a major upgrade of the setup, SIDDHARTA-2, is being realized to reach this goal. In this paper, the results obtained in 2009 and the proposed SIDDHARTA-2 upgrades are presented.