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Main Authors: Granda-Muñoz, Guido, Vázquez-Semadeni, Enrique, Gómez, Gilberto C.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.08702
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author Granda-Muñoz, Guido
Vázquez-Semadeni, Enrique
Gómez, Gilberto C.
author_facet Granda-Muñoz, Guido
Vázquez-Semadeni, Enrique
Gómez, Gilberto C.
contents We investigate the alignment mechanism between the magnetic field and interstellar clouds formed by the collision of warm atomic gas. We find that the magnetic field, initially oriented parallel to the flow, is perturbed by a fast MHD shock, which amplifies magnetic field fluctuations parallel to the shock front. Behind the shock, the compressive downstream velocity field further amplifies the magnetic field component parallel to the shock front. This mechanism causes the magnetic field to become increasingly parallel to the dense layer, and the development of a shear flow around the latter. Furthermore, the bending-mode perturbations on the dense layer are amplified by the non-linear thin-shell instability (NTSI), stretching the density structures formed by the thermal instability, and rendering them parallel to the bent field lines. By extension, we suggest that a tidal stretching velocity gradient such as that produced in gas infalling into a self-gravitating structure must straighten the field lines along the accretion flow, orienting them perpendicular to the density structures. We also find that the upstream superalfvénic regime transitions to a transalfvénic regime between the shock and the condensation front, and then to a subalfvénic regime inside the condensations.
format Preprint
id arxiv_https___arxiv_org_abs_2405_08702
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The role of shocks and the velocity gradient in the relative orientation of the magnetic field and dense gas clouds
Granda-Muñoz, Guido
Vázquez-Semadeni, Enrique
Gómez, Gilberto C.
Astrophysics of Galaxies
We investigate the alignment mechanism between the magnetic field and interstellar clouds formed by the collision of warm atomic gas. We find that the magnetic field, initially oriented parallel to the flow, is perturbed by a fast MHD shock, which amplifies magnetic field fluctuations parallel to the shock front. Behind the shock, the compressive downstream velocity field further amplifies the magnetic field component parallel to the shock front. This mechanism causes the magnetic field to become increasingly parallel to the dense layer, and the development of a shear flow around the latter. Furthermore, the bending-mode perturbations on the dense layer are amplified by the non-linear thin-shell instability (NTSI), stretching the density structures formed by the thermal instability, and rendering them parallel to the bent field lines. By extension, we suggest that a tidal stretching velocity gradient such as that produced in gas infalling into a self-gravitating structure must straighten the field lines along the accretion flow, orienting them perpendicular to the density structures. We also find that the upstream superalfvénic regime transitions to a transalfvénic regime between the shock and the condensation front, and then to a subalfvénic regime inside the condensations.
title The role of shocks and the velocity gradient in the relative orientation of the magnetic field and dense gas clouds
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2405.08702