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Auteurs principaux: Lopez-Rodriguez, Enrique, Tram, Le Ngoc
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2402.18628
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author Lopez-Rodriguez, Enrique
Tram, Le Ngoc
author_facet Lopez-Rodriguez, Enrique
Tram, Le Ngoc
contents Magnetic fields (B-fields) in galaxies have recently been traced using far-infrared and sub-mm polarimetric observations with SOFIA, JCMT, and ALMA. The main assumption is that dust grains are magnetically aligned with the local B-field in the interstellar medium (ISM). However, the range of physical conditions of the ISM, dust grain sizes, and B-field strengths in galaxies where this assumption is valid has not been characterized yet. Here, we use the well-studied spiral galaxy M51 as a case study. We find that the timescale for the alignment mechanism arising from magnetically aligned dust grains (B-RAT) dominates over other alignment mechanisms, including radiative precession (k-RAT) and mechanical alignment (v-MAT), as well as the randomization effect (gas damping). We estimate the sizes of the aligned dust grain to be in the range of 0.009-0.182 $μ$m and 0.019-0.452 $μ$m for arms and inter-arms, respectively. We show that the difference in the polarization fraction between arms and interarms can arise from the enhancement of small dust grain sizes in the arms as an effect of the grain alignment disruption (RAT-D). We argue that the RAT-D mechanism needs to have additional effects, e.g., intrinsic variations of the B-field structure and turbulence, in the galaxy's components to fully explain the polarization fraction variations within the arms and inter-arms.
format Preprint
id arxiv_https___arxiv_org_abs_2402_18628
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Probing the dust grain alignment mechanisms in spiral galaxies with M51 as the case study
Lopez-Rodriguez, Enrique
Tram, Le Ngoc
Astrophysics of Galaxies
Magnetic fields (B-fields) in galaxies have recently been traced using far-infrared and sub-mm polarimetric observations with SOFIA, JCMT, and ALMA. The main assumption is that dust grains are magnetically aligned with the local B-field in the interstellar medium (ISM). However, the range of physical conditions of the ISM, dust grain sizes, and B-field strengths in galaxies where this assumption is valid has not been characterized yet. Here, we use the well-studied spiral galaxy M51 as a case study. We find that the timescale for the alignment mechanism arising from magnetically aligned dust grains (B-RAT) dominates over other alignment mechanisms, including radiative precession (k-RAT) and mechanical alignment (v-MAT), as well as the randomization effect (gas damping). We estimate the sizes of the aligned dust grain to be in the range of 0.009-0.182 $μ$m and 0.019-0.452 $μ$m for arms and inter-arms, respectively. We show that the difference in the polarization fraction between arms and interarms can arise from the enhancement of small dust grain sizes in the arms as an effect of the grain alignment disruption (RAT-D). We argue that the RAT-D mechanism needs to have additional effects, e.g., intrinsic variations of the B-field structure and turbulence, in the galaxy's components to fully explain the polarization fraction variations within the arms and inter-arms.
title Probing the dust grain alignment mechanisms in spiral galaxies with M51 as the case study
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2402.18628