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Main Authors: Perna, Michele, Arribas, Santiago, Costantin, Luca, Pérez-González, Pablo G., Prieto-Jiménez, Carlota, Del Pino, Bruno Rogríguez, D'Eugenio, Francesco, Lamperti, Isabella, Mannucci, Filippo, Übler, Hannah, Böker, Torsten, Bunker, Andrew J., Carniani, Stefano, Charlot, Stéphane, Maiolino, Roberto, Bertola, Elena, Ceverino, Daniel, Circosta, Chiara, Cresci, Giovanni, Scholtz, Jan, Venturi, Giacomo
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.14874
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author Perna, Michele
Arribas, Santiago
Costantin, Luca
Pérez-González, Pablo G.
Prieto-Jiménez, Carlota
Del Pino, Bruno Rogríguez
D'Eugenio, Francesco
Lamperti, Isabella
Mannucci, Filippo
Übler, Hannah
Böker, Torsten
Bunker, Andrew J.
Carniani, Stefano
Charlot, Stéphane
Maiolino, Roberto
Bertola, Elena
Ceverino, Daniel
Circosta, Chiara
Cresci, Giovanni
Scholtz, Jan
Venturi, Giacomo
author_facet Perna, Michele
Arribas, Santiago
Costantin, Luca
Pérez-González, Pablo G.
Prieto-Jiménez, Carlota
Del Pino, Bruno Rogríguez
D'Eugenio, Francesco
Lamperti, Isabella
Mannucci, Filippo
Übler, Hannah
Böker, Torsten
Bunker, Andrew J.
Carniani, Stefano
Charlot, Stéphane
Maiolino, Roberto
Bertola, Elena
Ceverino, Daniel
Circosta, Chiara
Cresci, Giovanni
Scholtz, Jan
Venturi, Giacomo
contents Collisional ring galaxies are a rare class of interacting systems, making up only ~0.01% of galaxies in the local Universe. Their formation is typically attributed to a head-on collision of a massive galaxy with a compact satellite (intruder), triggering density waves that, propagating outward, produce the characteristic ring morphology. Here, we present the discovery and detailed analysis of GS18660, the most distant ring galaxy known to date, at z=3.08, identified in JWST/NIRSpec IFS observations as part of the GA-NIFS programme. This work aims to characterise the physical and dynamical properties of GS18660 and shed light into the formation of its ring. Specifically, we analyse the ionized gas properties, stellar populations, and gas kinematics of the system, and use the observed geometry to constrain the timescale of the collision. Our analysis is based on NIRSpec IFS data, including low-resolution (R~100) spectroscopy covering ~0.2-1.3um rest-frame, and high-resolution (R~2700) spectroscopy covering 0.4-0.8um rest-frame. Multi-wavelength techniques are applied to derive nebular gas conditions and stellar population properties. Gas kinematic analysis reveals that GS18660 exhibits a rotating disk component with an additional radial expansion velocity of ~200 km/s, consistent with a propagating collisional wave. Nebular line diagnostics indicate intense star formation (SFR ~100 Msun/yr) along the ring and in the nucleus. Stellar population analysis shows that the most recent star formation episode, occurring within the last ~50 Myr, predominantly took place in the ring. We also identify a close companion, the intruder galaxy responsible for the collision, moving away with a relative velocity of ~425 km/s. The evidence strongly favours a collisional origin for the ring in GS18660, though the presence of a recently formed bar (and hence a resonance ring) cannot be completely excluded.
format Preprint
id arxiv_https___arxiv_org_abs_2512_14874
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle GA-NIFS: the highest-redshift ring galaxy candidate from a head-on collision
Perna, Michele
Arribas, Santiago
Costantin, Luca
Pérez-González, Pablo G.
Prieto-Jiménez, Carlota
Del Pino, Bruno Rogríguez
D'Eugenio, Francesco
Lamperti, Isabella
Mannucci, Filippo
Übler, Hannah
Böker, Torsten
Bunker, Andrew J.
Carniani, Stefano
Charlot, Stéphane
Maiolino, Roberto
Bertola, Elena
Ceverino, Daniel
Circosta, Chiara
Cresci, Giovanni
Scholtz, Jan
Venturi, Giacomo
Astrophysics of Galaxies
Collisional ring galaxies are a rare class of interacting systems, making up only ~0.01% of galaxies in the local Universe. Their formation is typically attributed to a head-on collision of a massive galaxy with a compact satellite (intruder), triggering density waves that, propagating outward, produce the characteristic ring morphology. Here, we present the discovery and detailed analysis of GS18660, the most distant ring galaxy known to date, at z=3.08, identified in JWST/NIRSpec IFS observations as part of the GA-NIFS programme. This work aims to characterise the physical and dynamical properties of GS18660 and shed light into the formation of its ring. Specifically, we analyse the ionized gas properties, stellar populations, and gas kinematics of the system, and use the observed geometry to constrain the timescale of the collision. Our analysis is based on NIRSpec IFS data, including low-resolution (R~100) spectroscopy covering ~0.2-1.3um rest-frame, and high-resolution (R~2700) spectroscopy covering 0.4-0.8um rest-frame. Multi-wavelength techniques are applied to derive nebular gas conditions and stellar population properties. Gas kinematic analysis reveals that GS18660 exhibits a rotating disk component with an additional radial expansion velocity of ~200 km/s, consistent with a propagating collisional wave. Nebular line diagnostics indicate intense star formation (SFR ~100 Msun/yr) along the ring and in the nucleus. Stellar population analysis shows that the most recent star formation episode, occurring within the last ~50 Myr, predominantly took place in the ring. We also identify a close companion, the intruder galaxy responsible for the collision, moving away with a relative velocity of ~425 km/s. The evidence strongly favours a collisional origin for the ring in GS18660, though the presence of a recently formed bar (and hence a resonance ring) cannot be completely excluded.
title GA-NIFS: the highest-redshift ring galaxy candidate from a head-on collision
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2512.14874