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Auteurs principaux: Liu, Bing, Yang, Ruizhi
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2409.19350
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author Liu, Bing
Yang, Ruizhi
author_facet Liu, Bing
Yang, Ruizhi
contents Low-energy cosmic rays (LECRs) dominate the ionization in dense regions of molecular clouds in which other ionizers such as UV or X-ray photons are effectively shielded. Thus it was argued that the high ionization rate at the central molecular zone (CMZ) of our Galaxy is mainly caused by LECRs. However, the required LECR flux is orders of magnitude higher than the extrapolation of GeV cosmic ray (CR) flux derived from GeV gamma-ray observations. In this paper, we considered two types of additional LECR components and found that only very soft anomalous CR components can explain such a high ionization rate. This LECR component will inevitably produce MeV nuclear deexcitation lines due to their inelastic scattering with the ambient gas. We calculated the MeV line emission and discussed the detectability of next-generation MeV instruments. We found that future MeV observations can be used to pin down the origin of the high ionization rate in the CMZ.
format Preprint
id arxiv_https___arxiv_org_abs_2409_19350
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Constraining the low-energy cosmic ray flux in the central molecular zone from MeV nuclear deexcitation line observations
Liu, Bing
Yang, Ruizhi
High Energy Astrophysical Phenomena
Low-energy cosmic rays (LECRs) dominate the ionization in dense regions of molecular clouds in which other ionizers such as UV or X-ray photons are effectively shielded. Thus it was argued that the high ionization rate at the central molecular zone (CMZ) of our Galaxy is mainly caused by LECRs. However, the required LECR flux is orders of magnitude higher than the extrapolation of GeV cosmic ray (CR) flux derived from GeV gamma-ray observations. In this paper, we considered two types of additional LECR components and found that only very soft anomalous CR components can explain such a high ionization rate. This LECR component will inevitably produce MeV nuclear deexcitation lines due to their inelastic scattering with the ambient gas. We calculated the MeV line emission and discussed the detectability of next-generation MeV instruments. We found that future MeV observations can be used to pin down the origin of the high ionization rate in the CMZ.
title Constraining the low-energy cosmic ray flux in the central molecular zone from MeV nuclear deexcitation line observations
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2409.19350