Abstract Accurate knowledge of thermonuclear reaction rates is important in understanding the generation of energy, the luminosity of neutrinos, and the synthesis of elements in stars. Cross-section measurements for quiescent stellar H-burning are mainly hampered by extremely low counting rate and cosmic background. The \{LUNA\} Collaboration has shown that, by going underground and by using the typical techniques of low background physics, it is possible to measure nuclear cross-sections down to the energy of the nucleosynthesis inside stars. This paper reports an overview of the experimental techniques adopted in underground nuclear astrophysics through a summary of the main recent results and achievements. The future developments of the \{LUNA\} experiment are also given.

Cross-section measurements at astrophysically relevant energies: The \LUNA\ experiment

CACIOLLI, ANTONIO;DEPALO, ROSANNA;
2014

Abstract

Abstract Accurate knowledge of thermonuclear reaction rates is important in understanding the generation of energy, the luminosity of neutrinos, and the synthesis of elements in stars. Cross-section measurements for quiescent stellar H-burning are mainly hampered by extremely low counting rate and cosmic background. The \{LUNA\} Collaboration has shown that, by going underground and by using the typical techniques of low background physics, it is possible to measure nuclear cross-sections down to the energy of the nucleosynthesis inside stars. This paper reports an overview of the experimental techniques adopted in underground nuclear astrophysics through a summary of the main recent results and achievements. The future developments of the \{LUNA\} experiment are also given.
2014
4th Roma International Conference on Astroparticle Physics
RICAP-13 4th Roma International Conference on Astroparticle Physics
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/2837279
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