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JWST/NIRSpec insights into the circumnuclear region of Arp 220: A detailed kinematic study

Astronomy and Astrophysics, ISSN: 1432-0746, Vol: 693
2025
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Article Description

The study of starburst and active galactic nuclei (AGN) feedback is crucial for understanding the regulation of star formation and the evolution of galaxies across cosmic time. Arp 220, the closest ultraluminous infrared galaxy (ULIRG), is in an advanced phase of a major merger with two distinct nuclei, and it shows evidence of multiphase (molecular, ionized, and neutral) and multiscale (from < 0.1 to > 5 kpc) outflows. Therefore, it represents an ideal system for investigating outflow mechanisms and feedback phenomena in detail. Using new JWST NIRSpec IFU observations, we investigated the spatially resolved gaseous (in both ionized and hot molecular phases) and stellar kinematics in the innermost 1 kpc. We decoupled the different gas kinematic components through multi-Gaussian fitting, identifying two multiphase outflows, each associated with one nucleus, with velocities up to ∼1000 km s. We also resolved two counter-rotating discs around each nucleus embedded in a larger-scale rotational disk. We compute the total (including ionized, cold, and hot molecular) outflow mass (≈10 M), the mass rate (≈15 M yr), and the energetics (Ė ≈ 10 erg s) for each nucleus, and we found that the ionized and hot molecular outflowing gas contribute around 2-30% of the total mass and the energy of the outflows, as inferred from the combination of multiwavelength information. We discuss the possible origin of the outflows, finding no compelling evidence to prefer a starburst- or AGN-driven scenario. Regardless of their nature, outflows in Arp 220 propagate in multiple directions from parsec to kiloparsec scales, potentially impacting a significant portion of the host galaxy. This contrasts with isolated systems where outflows typically follow a more collimated path or are limited to the central region of the galaxy and hence do not affect the interstellar medium throughout the entire galaxy. This study highlights the importance of investigating merging systems with multiwavelength facilities, including JWST/NIRSpec IFU, to obtain a comprehensive understanding of feedback mechanisms in galaxy evolution.

Bibliographic Details

Lorenzo Ulivi; Isabella Lamperti; Cosimo Marconcini; Matteo Ceci; Alessandro Marconi; Giovanni Cresci; Michele Perna; Santiago Arribas; Bruno Rodríguez Del Pino; Torsten Böker; Andrew J. Bunker; Stéphane Charlot; Francesco D'Eugenio; Roberto Maiolino; Katja Fahrion; Miguel Pereira-Santaella

EDP Sciences

Physics and Astronomy; Earth and Planetary Sciences

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