Since its launch the Alpha Magnetic Spectrometer–02 (AMS-02) has delivered outstanding quality measurements of the spectra of cosmic-ray (CR) species, which resulted in a number of breakthroughs. A recently published spectrum of iron is of a particular interest. Because of the large fragmentation cross section and large ionization energy losses, most of CR iron at low energies is local, and may harbor some features associated with relatively recent supernova (SN) activity inside the Local Bubble. Indeed, our analysis of AMS-02 measurements together with Voyager 1 and ACE-CRIS data reveals an unexpected bump in the iron spectrum and in the Fe/He, Fe/O, and Fe/Si ratios at 1–2 GV. This is the first time when the excess is found in the elemental CR iron that is dominated by a stable 56Fe isotope. Previously discovered were only deposits of radioactive 60Fe in terrestrial and lunar samples, and in CRs. To confirm the excess and clarify its nature, precise measurements of other heavy CR species are of crucial importance. In this paper, we employ the GalProp–HelMod framework to derive the 60Fe/56Fe ratio in the sources using 60Fe abundance from ACE-CRIS and compare it with the SN yield. We also provide an updated local interstellar spectrum (LIS) of iron in the energy range from 1 MeV nucleon−1 to ∼10 TeV nucleon−1 and the sub-Fe/Fe ratio calculated in the same framework.

Masi, N., Boschini, M., Torre, S., Gervasi, M., Grandi, D., Johannesson, G., et al. (2022). Studying the low-energy excess in cosmic-ray iron: a possible evidence of a massive supernova activity in the solar neighborhood via primary 60Fe. In Proceedings of 37th International Cosmic Ray Conference. Sissa Medialab Srl [10.22323/1.395.0159].

Studying the low-energy excess in cosmic-ray iron: a possible evidence of a massive supernova activity in the solar neighborhood via primary 60Fe

Gervasi, M;Grandi, D;La Vacca, G;Pensotti, S;Rozza, D;Tacconi, M
2022

Abstract

Since its launch the Alpha Magnetic Spectrometer–02 (AMS-02) has delivered outstanding quality measurements of the spectra of cosmic-ray (CR) species, which resulted in a number of breakthroughs. A recently published spectrum of iron is of a particular interest. Because of the large fragmentation cross section and large ionization energy losses, most of CR iron at low energies is local, and may harbor some features associated with relatively recent supernova (SN) activity inside the Local Bubble. Indeed, our analysis of AMS-02 measurements together with Voyager 1 and ACE-CRIS data reveals an unexpected bump in the iron spectrum and in the Fe/He, Fe/O, and Fe/Si ratios at 1–2 GV. This is the first time when the excess is found in the elemental CR iron that is dominated by a stable 56Fe isotope. Previously discovered were only deposits of radioactive 60Fe in terrestrial and lunar samples, and in CRs. To confirm the excess and clarify its nature, precise measurements of other heavy CR species are of crucial importance. In this paper, we employ the GalProp–HelMod framework to derive the 60Fe/56Fe ratio in the sources using 60Fe abundance from ACE-CRIS and compare it with the SN yield. We also provide an updated local interstellar spectrum (LIS) of iron in the energy range from 1 MeV nucleon−1 to ∼10 TeV nucleon−1 and the sub-Fe/Fe ratio calculated in the same framework.
paper
Cosmic Rays; Stellar nucleosynthesis; Supernovae
English
37th International Cosmic Ray Conference, ICRC 2021
2021
Proceedings of 37th International Cosmic Ray Conference
2022
395
159
open
Masi, N., Boschini, M., Torre, S., Gervasi, M., Grandi, D., Johannesson, G., et al. (2022). Studying the low-energy excess in cosmic-ray iron: a possible evidence of a massive supernova activity in the solar neighborhood via primary 60Fe. In Proceedings of 37th International Cosmic Ray Conference. Sissa Medialab Srl [10.22323/1.395.0159].
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