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Main Authors: Koll, Dominik, Fichter, Sebastian, Hotchkis, Michael, Martschini, Martin, Merchel, Silke, Pavetich, Stefan, Rolofs, Annabel, Tims, Steve, Zwickel, Sebastian, Wallner, Anton
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.13486
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_version_ 1866917016105910272
author Koll, Dominik
Fichter, Sebastian
Hotchkis, Michael
Martschini, Martin
Merchel, Silke
Pavetich, Stefan
Rolofs, Annabel
Tims, Steve
Zwickel, Sebastian
Wallner, Anton
author_facet Koll, Dominik
Fichter, Sebastian
Hotchkis, Michael
Martschini, Martin
Merchel, Silke
Pavetich, Stefan
Rolofs, Annabel
Tims, Steve
Zwickel, Sebastian
Wallner, Anton
contents The detection of interstellar radionuclides in geological archives provides insights into nucleosynthesis in stars and stellar explosions as well as interstellar medium dynamics in the Local Bubble and the Local Interstellar Cloud. In this work, current projects to detect interstellar radionuclides with accelerator mass spectrometry will be reviewed. These projects aim to address unsolved questions regarding the timing and the origin of the influxes and to establish new radionuclides for future searches. For the first time, experimental evidence for an inhomogeneous deposition of interstellar 60Fe onEarthwill be presented and another potential source for 60Fe on Earth and the Moon, primary galactic cosmic rays, will be introduced.
format Preprint
id arxiv_https___arxiv_org_abs_2510_13486
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Recent progress on interstellar radionuclides on Earth and the Moon
Koll, Dominik
Fichter, Sebastian
Hotchkis, Michael
Martschini, Martin
Merchel, Silke
Pavetich, Stefan
Rolofs, Annabel
Tims, Steve
Zwickel, Sebastian
Wallner, Anton
Solar and Stellar Astrophysics
Nuclear Experiment
The detection of interstellar radionuclides in geological archives provides insights into nucleosynthesis in stars and stellar explosions as well as interstellar medium dynamics in the Local Bubble and the Local Interstellar Cloud. In this work, current projects to detect interstellar radionuclides with accelerator mass spectrometry will be reviewed. These projects aim to address unsolved questions regarding the timing and the origin of the influxes and to establish new radionuclides for future searches. For the first time, experimental evidence for an inhomogeneous deposition of interstellar 60Fe onEarthwill be presented and another potential source for 60Fe on Earth and the Moon, primary galactic cosmic rays, will be introduced.
title Recent progress on interstellar radionuclides on Earth and the Moon
topic Solar and Stellar Astrophysics
Nuclear Experiment
url https://arxiv.org/abs/2510.13486