CHemical Evolution in MassIve star-forming COres (CHEMICO). I. Evolution of the temperature structure

F. Fontani (1,2,3); V.M. Rivilla (4); E. Roueff (2); H. Mart\'in-Caballero (4); L. Bizzocchi (5); L. Colzi (4); \'A. Lopez-Gallifa (4); M.T. Beltr\'an (1); P. Caselli (3); C. Mininni (6); A. Vasyunin (7) ((1) INAF-Osservatorio Astrofisico di Arcetri; Florence (Italy); (2) Laboratory for the study of the Universe; eXtreme phenomena (LUX); Observatoire de Paris; Meudon (France); (3) Max-Planck Institut for Extraterrestrial physics (MPE); Garching be M\"unchen (Germany); (4) Centro de Astrobiolog\'ia (CAB); CSIC-INTA; Madrid (Spain); (5) Dipartimento di chimica "Giacomo Ciamician"; Universit\`a di Bologna (Italy); (6) INAF - Istituto di Astrofisica e Planetologia Spaziali; Roma (Italy); (7) Ural Federal University; Yekaterinburg; Russia)

arXiv:2507.01519·astro-ph.GA·August 27, 2025

CHemical Evolution in MassIve star-forming COres (CHEMICO). I. Evolution of the temperature structure

F. Fontani (1,2,3), V.M. Rivilla (4), E. Roueff (2), H. Mart\'in-Caballero (4), L. Bizzocchi (5), L. Colzi (4), \'A. Lopez-Gallifa (4), M.T. Beltr\'an (1), P. Caselli (3), C. Mininni (6), A. Vasyunin (7) ((1) INAF-Osservatorio Astrofisico di Arcetri, Florence (Italy)

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TL;DR

This study investigates the temperature evolution in high-mass star-forming cores across different stages, revealing increasing temperature and stratification as cores evolve from starless to ultracompact HII regions.

Contribution

It provides the first detailed analysis of temperature structure evolution in high-mass star-forming cores using spectral line surveys across multiple evolutionary stages.

Findings

01

Temperature increases with evolution in all species.

02

Hydrocarbons are associated with lower temperatures and increase with evolution.

03

Cyanides are associated with higher temperatures and also increase with evolution.

Abstract

Increasing evidence shows that most stars in the Milky Way, including the Sun, are born in star-forming regions containing also high-mass stars, but due to both observational and theoretical challenges, our comprehension of their chemical evolution is far less clear than that of their low-mass counterparts. We present the project "CHemical Evolution of MassIve star-froming COres" (CHEMICO). The project aims at investigating any aspect of the chemical evolution of high-mass star-forming cores by observing representatives of the three main evolutionary categories: high-mass starless cores, high-mass protostellar objects, and ultra-compact HII regions. We carried out an unbiased spectral line survey of the entire bandwidth at 3, 2, and 1.2 mm with the 30m telescope of the Insitut de Radioastronomie millimetrique towards three targets that represent the three evolutionary stages. The number…

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