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Exploring the astrophysical energy range of the 27Al(p,α)24Mg reaction: A new recommended reaction rate

Authors :
M. La Cognata
S. Palmerini
P. Adsley
F. Hammache
A. Di Pietro
P. Figuera
R. Alba
S. Cherubini
F. Dell'Agli
G.L. Guardo
M. Gulino
L. Lamia
D. Lattuada
C. Maiolino
A. Oliva
R.G. Pizzone
P.M. Prajapati
S. Romano
D. Santonocito
R. Spartá
M.L. Sergi
A. Tumino
Source :
Physics Letters B, Vol 826, Iss , Pp 136917- (2022)
Publication Year :
2022
Publisher :
Elsevier, 2022.

Abstract

The 26Al abundance holds a special role in present-day astrophysics, since it is a probe of active nucleosynthesis in the Galaxy and a valuable constraint of Galactic core-collapse supernovae rate. It is estimated through the detection of the 1809-keV γ-line of the daughter 26Mg and from the superabundance of 26Mg in comparison with the most abundant 24Mg isotope in meteorites. Accurate knowledge of the reaction rates involving 26Al, its stable counterpart 27Al and 24Mg is then mandatory. Moreover, these nuclei enter the MgAl cycle playing an important role in the production of Al and Mg isotopes. Recently, high-resolution stellar surveys have shown that the Mg-Al anti-correlation in red giants of globular clusters may hide the existence of multiple stellar populations, and that the relative abundances of Mg isotopes may not show correlation with Al.The common thread running through these astrophysical scenarios is the 27Al(p,α)24Mg reaction, which is the main 27Al destruction channel and directly correlates its abundance with the 24Mg one. Since available reaction rates show an order of magnitude uncertainty owing to the vanishingly small cross section at astrophysical energies, we have applied the Trojan Horse Method to deduce the reaction rate with no need of extrapolation. The indirect measurement made it possible to assess the contribution of the 84-keV resonance and to lower the upper limits on the strength of nearby resonances, with potential important impact for astrophysics. In particular, modifications in the 27Al and 24Mg abundances up to ∼30% are predicted for intermediate mass stars.

Details

Language :
English
ISSN :
03702693
Volume :
826
Issue :
136917-
Database :
Directory of Open Access Journals
Journal :
Physics Letters B
Publication Type :
Academic Journal
Accession number :
edsdoj.f1f3b29797ee4b8fb716c4a2851bd416
Document Type :
article
Full Text :
https://doi.org/10.1016/j.physletb.2022.136917