EPJ Web of Conferences (Jan 2023)

SIDDHARTA-2 veto system design and performance for kaonic atoms studies at DAΦNE

  • Sgaramella F.,
  • Bazzi M.,
  • Bosnar D.,
  • Bragadireanu M.,
  • Cargnelli M.,
  • Carminati M.,
  • Clozza A.,
  • Deda G.,
  • Del Grande R.,
  • Dulski K.,
  • De Paolis L.,
  • Fabbietti L.,
  • Fiorini C.,
  • Friščić I.,
  • Guaraldo C.,
  • Iliescu M.,
  • Iwasaki M.,
  • Khreptak A.,
  • Manti S.,
  • Marton J.,
  • Miliucci M.,
  • Moskal P.,
  • Napolitano F.,
  • Niedźwiecki S.,
  • Ohnishi H.,
  • Piscicchia K.,
  • Sada Y.,
  • Scordo A.,
  • Silarski M.,
  • Sirghi D.,
  • Sirghi F.,
  • Skurzok M.,
  • Spallone A.,
  • Toho K.,
  • Tüchler M.,
  • Yoshida C.,
  • Zmeskal J.,
  • Curceanu C.

DOI
https://doi.org/10.1051/epjconf/202329006005
Journal volume & issue
Vol. 290
p. 06005

Abstract

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Light kaonic atoms spectroscopy provides a unique approach to study the low-energy strong interaction in the strangeness sector. Precise measurements of X-ray emission from light kaonic atoms provide valuable information on kaon-nucleus interaction at threshold without the need for extrapolation as required in scattering experiments. The SIDDHARTA-2 experiment at the DAΦNE collider of INFN-LNF is now poised to perform the challenging measurements of the K−- d 2p → 1s transition to extract the isospin-dependent antikaonnucleon scattering lengths. To achieve this goal, the background reduction is a crucial factor. This paper provides an overview of the SIDDHARTA-2 Veto-1 system, which uses scintillators outside the vacuum chamber to detect charged particles produced by K− absorption by the nucleus. The arrival time of these particles is correlated with the position where the kaonic atom has been created inside the setup, allowing for the rejection of kaons stopped outside the target cell, which is a critical component for reducing the background and improve the accuracy of the measurement.