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Main Authors: Arazi, E. Cohen, Velázquez, P. F., Ortega, M. E., Rodríguez-González, A., Alquicira-Peláez, E., Paron, S., Rivera-Ortiz, P., Esquivel, A.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.23526
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author Arazi, E. Cohen
Velázquez, P. F.
Ortega, M. E.
Rodríguez-González, A.
Alquicira-Peláez, E.
Paron, S.
Rivera-Ortiz, P.
Esquivel, A.
author_facet Arazi, E. Cohen
Velázquez, P. F.
Ortega, M. E.
Rodríguez-González, A.
Alquicira-Peláez, E.
Paron, S.
Rivera-Ortiz, P.
Esquivel, A.
contents We present an unexplored scenario for interpreting the outflows in the EGO G338.92+0.55 (b) region (hereafter, EGO G338). Within this framework, we investigate the hypothesis that the interaction between two outflows is responsible for the observed morphology and kinematics of this astrophysical object. To explore this possibility, we reanalyse the region using observational molecular line data. We base our analysis on maps of moments 0, 1, and 2 of the CO emission associated with the molecular outflows. Additionally, we conduct three-dimensional hydrodynamic simulations to examine the presence or absence of a collision between two jets. From our numerical results, we produce synthetic CO images to facilitate a direct comparison with observations. The findings of this study provide compelling evidence that the observed morphology and kinematics in the EGO G338 region are the result of a likely collision between two molecular outflows.
format Preprint
id arxiv_https___arxiv_org_abs_2510_23526
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Unveiling the collision between molecular outflows: observational evidence and hydrodynamic simulations
Arazi, E. Cohen
Velázquez, P. F.
Ortega, M. E.
Rodríguez-González, A.
Alquicira-Peláez, E.
Paron, S.
Rivera-Ortiz, P.
Esquivel, A.
Astrophysics of Galaxies
We present an unexplored scenario for interpreting the outflows in the EGO G338.92+0.55 (b) region (hereafter, EGO G338). Within this framework, we investigate the hypothesis that the interaction between two outflows is responsible for the observed morphology and kinematics of this astrophysical object. To explore this possibility, we reanalyse the region using observational molecular line data. We base our analysis on maps of moments 0, 1, and 2 of the CO emission associated with the molecular outflows. Additionally, we conduct three-dimensional hydrodynamic simulations to examine the presence or absence of a collision between two jets. From our numerical results, we produce synthetic CO images to facilitate a direct comparison with observations. The findings of this study provide compelling evidence that the observed morphology and kinematics in the EGO G338 region are the result of a likely collision between two molecular outflows.
title Unveiling the collision between molecular outflows: observational evidence and hydrodynamic simulations
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2510.23526