The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities

The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities

The chemical evolution of the Universe and several phases of stellar life are regulated by minute nuclear reactions. The key point for each of these reactions is the value of cross-sections at the energies at which they take place in stellar environments. Direct cross-section measurements are mainly...

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Main Authors: F. Ferraro, G. F. Ciani, A. Boeltzig, F. Cavanna, S. Zavatarelli
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-03-01
Series:Frontiers in Astronomy and Space Sciences
Subjects:
helium burning
gamma spectroscopy
neutron spectroscopy
underground nuclear astrophysics
carbon burning
Online Access:https://www.frontiersin.org/articles/10.3389/fspas.2020.617946/full
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spelling doaj-07031d2a0327400394e5a46ec4d5b9ef2021-03-08T04:41:46ZengFrontiers Media S.A.Frontiers in Astronomy and Space Sciences2296-987X2021-03-01710.3389/fspas.2020.617946617946The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground FacilitiesF. Ferraro0G. F. Ciani1G. F. Ciani2A. Boeltzig3F. Cavanna4S. Zavatarelli5Università Degli Studi di Genova and INFN, Sezione di Genova, Genova, ItalyDipartimento di Matematica e Fisica, Università della Campania L. Vanvitelli, Caserta, ItalyINFN, Laboratori Nazionali del Gran Sasso (LNGS), Assergi, ItalyINFN, Laboratori Nazionali del Gran Sasso (LNGS), Assergi, ItalyINFN, Sezione di Torino, Torino, ItalyUniversità Degli Studi di Genova and INFN, Sezione di Genova, Genova, ItalyThe chemical evolution of the Universe and several phases of stellar life are regulated by minute nuclear reactions. The key point for each of these reactions is the value of cross-sections at the energies at which they take place in stellar environments. Direct cross-section measurements are mainly hampered by the very low counting rate and by cosmic background; nevertheless, they have become possible by combining the best experimental techniques with the cosmic silence of an underground laboratory. In the nineties, the LUNA (Laboratory for Underground Nuclear Astrophysics) collaboration opened the era of underground nuclear astrophysics, installing first a homemade 50 kV and, later on, a second 400 kV accelerator under the Gran Sasso mountain in Italy: in 25 years of experimental activity, important reactions responsible for hydrogen burning could have been studied down to the relevant energies thanks to the high current proton and helium beams provided by the machines. The interest in the next and warmer stages of star evolution (i.e., post-main sequence and helium and carbon burning) drove a new project based on an ion accelerator in the MV range called LUNA-MV, able to deliver proton, helium, and carbon beams. The present contribution is aimed to discuss the state of the art for some selected key processes of post-main sequence stellar phases: 12C(α,γ)16O and 12C+12C are fundamental for helium and carbon burning phases, and 13C(α,n)16O and 22Ne(α,n)25Mg are relevant to the synthesis of heavy elements in AGB stars. The perspectives opened by an underground MV facility will be highlighted.https://www.frontiersin.org/articles/10.3389/fspas.2020.617946/fullhelium burninggamma spectroscopyneutron spectroscopyunderground nuclear astrophysicscarbon burning
collection DOAJ
language English
format Article
sources DOAJ
author F. Ferraro
G. F. Ciani
G. F. Ciani
A. Boeltzig
F. Cavanna
S. Zavatarelli
spellingShingle F. Ferraro
G. F. Ciani
G. F. Ciani
A. Boeltzig
F. Cavanna
S. Zavatarelli
The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities
Frontiers in Astronomy and Space Sciences
helium burning
gamma spectroscopy
neutron spectroscopy
underground nuclear astrophysics
carbon burning
author_facet F. Ferraro
G. F. Ciani
G. F. Ciani
A. Boeltzig
F. Cavanna
S. Zavatarelli
author_sort F. Ferraro
title The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities
title_short The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities
title_full The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities
title_fullStr The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities
title_full_unstemmed The Study of Key Reactions Shaping the Post-Main Sequence Evolution of Massive Stars in Underground Facilities
title_sort study of key reactions shaping the post-main sequence evolution of massive stars in underground facilities
publisher Frontiers Media S.A.
series Frontiers in Astronomy and Space Sciences
issn 2296-987X
publishDate 2021-03-01
description The chemical evolution of the Universe and several phases of stellar life are regulated by minute nuclear reactions. The key point for each of these reactions is the value of cross-sections at the energies at which they take place in stellar environments. Direct cross-section measurements are mainly hampered by the very low counting rate and by cosmic background; nevertheless, they have become possible by combining the best experimental techniques with the cosmic silence of an underground laboratory. In the nineties, the LUNA (Laboratory for Underground Nuclear Astrophysics) collaboration opened the era of underground nuclear astrophysics, installing first a homemade 50 kV and, later on, a second 400 kV accelerator under the Gran Sasso mountain in Italy: in 25 years of experimental activity, important reactions responsible for hydrogen burning could have been studied down to the relevant energies thanks to the high current proton and helium beams provided by the machines. The interest in the next and warmer stages of star evolution (i.e., post-main sequence and helium and carbon burning) drove a new project based on an ion accelerator in the MV range called LUNA-MV, able to deliver proton, helium, and carbon beams. The present contribution is aimed to discuss the state of the art for some selected key processes of post-main sequence stellar phases: 12C(α,γ)16O and 12C+12C are fundamental for helium and carbon burning phases, and 13C(α,n)16O and 22Ne(α,n)25Mg are relevant to the synthesis of heavy elements in AGB stars. The perspectives opened by an underground MV facility will be highlighted.
topic helium burning
gamma spectroscopy
neutron spectroscopy
underground nuclear astrophysics
carbon burning
url https://www.frontiersin.org/articles/10.3389/fspas.2020.617946/full
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