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Main Authors: Tu, Tian-Yu, Chen, Yang, Liu, Qian-Cheng
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.09138
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author Tu, Tian-Yu
Chen, Yang
Liu, Qian-Cheng
author_facet Tu, Tian-Yu
Chen, Yang
Liu, Qian-Cheng
contents Supernova remnants (SNRs) can exert strong influence on molecular clouds (MCs) through interaction by shock wave and cosmic rays. In this paper, we present our mapping observation of HCO+ and HCN 1-0 lines towards 13 SNRs interacting with MCs, together with archival data of CO isotopes. Strong HCO+ emission is found in the fields of view (FOVs) of SNRs W30, G9.7-0.0, Kes 69, 3C 391, 3C 396, W51C, HC 40, and CTB109 in the local-standard-of-rest (LSR) velocity intervals in which they are suggested to show evidence of SNR-MC interaction. We find an incomplete 12CO shell surrounding G9.7-0.0 with an expanding motion. This shell may be driven by the stellar wind of the SNR progenitor. We also find an arc of 12CO gas spatially coincident with the northwestern radio shell of Kes 69. As for the HCO+ line emission, SNRs 3C 391 and W51C exhibit significant line profile broadening indicative of shock perturbation, and CTB109 exhibits a possible blue-shifted line wing brought by shock interaction. We do not find significant variation of the I(HCO+)/I(HCN) line ratio between broad-line and narrow-line regions, among different SNRs, and between MCs associated with SNRs and typical Galactic MCs. Therefore, we caution on using the I(HCO+)/I(HCN) line ratio as a diagnostic of SNR feedback and CR ionization. We also estimate the N(HCO+)/N(CO) abundance ratio in 11 regions towards the observed SNRs, but they show little difference from the typical values in quiescent MCs, possibly because N(HCO+)/N(CO) is not an effective tracer of CR ionization.
format Preprint
id arxiv_https___arxiv_org_abs_2411_09138
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Mapping the dense molecular gas towards thirteen supernova remnants
Tu, Tian-Yu
Chen, Yang
Liu, Qian-Cheng
Astrophysics of Galaxies
Supernova remnants (SNRs) can exert strong influence on molecular clouds (MCs) through interaction by shock wave and cosmic rays. In this paper, we present our mapping observation of HCO+ and HCN 1-0 lines towards 13 SNRs interacting with MCs, together with archival data of CO isotopes. Strong HCO+ emission is found in the fields of view (FOVs) of SNRs W30, G9.7-0.0, Kes 69, 3C 391, 3C 396, W51C, HC 40, and CTB109 in the local-standard-of-rest (LSR) velocity intervals in which they are suggested to show evidence of SNR-MC interaction. We find an incomplete 12CO shell surrounding G9.7-0.0 with an expanding motion. This shell may be driven by the stellar wind of the SNR progenitor. We also find an arc of 12CO gas spatially coincident with the northwestern radio shell of Kes 69. As for the HCO+ line emission, SNRs 3C 391 and W51C exhibit significant line profile broadening indicative of shock perturbation, and CTB109 exhibits a possible blue-shifted line wing brought by shock interaction. We do not find significant variation of the I(HCO+)/I(HCN) line ratio between broad-line and narrow-line regions, among different SNRs, and between MCs associated with SNRs and typical Galactic MCs. Therefore, we caution on using the I(HCO+)/I(HCN) line ratio as a diagnostic of SNR feedback and CR ionization. We also estimate the N(HCO+)/N(CO) abundance ratio in 11 regions towards the observed SNRs, but they show little difference from the typical values in quiescent MCs, possibly because N(HCO+)/N(CO) is not an effective tracer of CR ionization.
title Mapping the dense molecular gas towards thirteen supernova remnants
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2411.09138