Litcius/Paper detail

The<i>s</i>Process and Beyond

Maria Lugaro, M. Pignatari, R. Reifarth, M. Wiescher

2023Annual Review of Nuclear and Particle Science63 citationsDOIOpen Access PDF

Abstract

Neutron captures produce the vast majority of abundances of elements heavier than iron in the Universe. Beyond the classical slow ( s) and rapid ( r) processes, there is observational evidence for neutron-capture processes that operate at neutron densities in between, at different distances from the valley of β stability. Here, we review the main properties of the s process within the general context of neutron-capture processes and the nuclear physics input required to investigate it. We describe massive stars and asymptotic giant branch stars as the s-process astrophysical sites and discuss the related physical uncertainties. We also present current observational evidence for the s process and beyond, which ranges from stellar spectroscopic observations to laboratory analysis of meteorites.

Topics & Concepts

Physicsr-processs-processNeutron starNucleosynthesisContext (archaeology)Nuclear astrophysicsAstrophysicsMeteoriteNeutronStarsAstronomyNuclear physicsBiologyPaleontologyAstro and Planetary ScienceNuclear physics research studiesStellar, planetary, and galactic studies