EPJ Web of Conferences (Jan 2020)

The PANDORA project: an experimental setup for measuring in-plasma β-decays of astrophysical interest

  • Mascali David,
  • Busso Maurizio,
  • Mengoni Alberto,
  • Amaducci Simone,
  • Giuseppe Castro,
  • Celona Luigi,
  • Cosentino Gianluigi,
  • Cristallo Sergio,
  • Finocchiaro Paolo,
  • Galata Alessio,
  • Gammino Santo,
  • Massimi Cristian,
  • Maggiore Mario,
  • Mauro Giorgio,
  • Maria Mazzaglia,
  • Naselli Eugenia,
  • Odorici Fabrizio,
  • Palmerini Sara,
  • Santonocito Domenico,
  • Giuseppe Torrisi

DOI
https://doi.org/10.1051/epjconf/202022701013
Journal volume & issue
Vol. 227
p. 01013

Abstract

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Experiments performed on Storage Rings have shown that lifetimes of beta-radionuclides can change dramatically as a function of theionization state. PANDORA (Plasmas for Astrophysics, Nuclear Decay Observation and Radiation for Archaeometry) aims at measuring, for the first time, nuclear β-decay rates in stellar-like conditions, especially for radionuclides involved in nuclear-astrophysics processes (BBN, s- processing, CosmoChronometers, Early Solar System formation). Compact magnetic plasma traps, where plasmas reach density ne~10n-1014 cm-3, and temperature Te~0.1-30 keV, are suitable for such studies. The decay rates can be measured as a function of the charge state distribution of the inplasma ions. The collaboration is now designing the plasma trap able to reach the needed plasma densities, temperatures and charge states distributions. A first list of radioisotopes, including tens of physics cases of potential interest is now available. Possible physics cases include, among the others, 2°4Tl, 63Ni, 6°Co, 171Tm, 147Pm, 85Kr, 176Lu and the pairs 187Re-187Os and 87Sr-87Rb, which play a crucial role as cosmo-clock. Physics cases are now under evaluation in terms of lifetime measurements feasibility in a plasma trap.