Detectors and Shieldings: Past and Future at LUNA

Detectors and Shieldings: Past and Future at LUNA

Nuclear reactions are responsible for the chemical evolution of stars, galaxies and the Universe. Unfortunately, at temperatures of interest for nuclear astrophysics, the cross-sections of the thermonuclear reactions are in the pico- femto-barn range and thus measuring them in the laboratory is extr...

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Veröffentlicht in:Universe (Basel) 2024-05, Vol.10 (5), p.228
Hauptverfasser: Ananna, Chemseddine, Barbieri, Lucia, Boeltzig, Axel, Campostrini, Matteo, Casaburo, Fausto, Compagnucci, Alessandro, Csedreki, Laszlo, Gesue, Riccardo Maria, Marsh, Jordan, Mercogliano, Daniela, Piatti, Denise, Robb, Duncan, Sidhu, Ragandeep Singh, Skowronski, Jakub
Format: Artikel
Sprache:eng
Schlagworte:
Chemical elements
Collaboration
Cosmic rays
Detectors
Efficiency
Monte Carlo simulation
Nuclear reactions
passive shieldings
Sensors
stellar nucleosynthesis
underground nuclear astrophysics
γ, α and neutron detectors
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Zusammenfassung:Nuclear reactions are responsible for the chemical evolution of stars, galaxies and the Universe. Unfortunately, at temperatures of interest for nuclear astrophysics, the cross-sections of the thermonuclear reactions are in the pico- femto-barn range and thus measuring them in the laboratory is extremely challenging. In this framework, major steps forward were made with the advent of underground nuclear astrophysics, pioneered by the Laboratory for Underground Nuclear Astrophysics (LUNA). The cosmic background reduction by several orders of magnitude obtained at LUNA, however, needs to be combined with high-performance detectors and dedicated shieldings to obtain the required sensitivity. In the present paper, we report on the recent and future detector-shielding designs at LUNA.
ISSN:2218-1997
2218-1997
DOI:10.3390/universe10050228