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The Amadeus project at Dafne

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 نشر من قبل Curceanu Catalina
 تاريخ النشر 2007
  مجال البحث
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 تأليف Catalina Curceanu




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The change of the hadron masses and hadron interactions in the nuclear medium and the structure of cold dense hadronic matter are hot topics of hadron physics today. These important, yet unsolved, problems will be the research field of AMADEUS (Antikaonic Matter At DAFNE: Experiments with Unraveling Spectroscopy) - new experiment proposal at DAFNE accelerator at LNF-INFN. AMADEUS will search for antikaon-mediated deeply bound nuclear states produced in helium by stopping K- from DAFNE, both in the formation and in the decay processes.



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The AMADEUS experiment aims to perform dedicated precision studies in the sector of low-energy kaon-nuclei interaction at the DAPhi NE collider at LNF-INFN. In particular the experiment plans to perform measurements of the debated deeply bound kaonic nuclear states (by stopping kaons in cryogenic gaseous targets 3He and 4He) to explore the nature of the Lambda(1405) in nuclear environment and to measure the cross section of K- on light nuclei, for K- momentum lower than 100 MeV/c. The AMADEUS dedicated setup will be installed in the central region of the KLOE detector.
401 - A. Scordo , M. Bazzi , G. Bellotti 2015
The AMADEUS experiment deals with the investigation of the low-energy kaon-nuclei hadronic interaction at the DA{Phi}NE collider at LNF-INFN, which is fundamental to respond longstanding questions in the non-perturbative QCD strangeness sector. The a ntikaon-nucleon potential is investigated searching for signals from possible bound kaonic clusters, which would open the possibility for the formation of cold dense baryonic matter. The confirmation of this scenario may imply a fundamental role of strangeness in astrophysics. AMADEUS step 0 consisted in the reanalysis of 2004/2005 KLOE dataset, exploiting K- absorptions in H, 4He, 9Be and 12C in the setup materials. In this paper, together with a review on the multi-nucleon K- absorption and the particle identification procedure, the first results on the {Sigma}0-p channel will be presented including a statistical analysis on the possible accomodation of a deeply bound state
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