The rich molecular environment of the luminous blue variable star AFGL   2298

J. R. Rizzo (1; 2); C. Bordiu (3); C. Buemi (3); P. Leto (3); A.; Ingallinera (3); F. Bufano (3); G. Umana (3); L. Cerrigone (4); and C.; Trigilio (3) ((1) ISDEFE; (2) Centro de Astrobiologia - CSIC/INTA; (3) INAF -; Catania; (4) ALMA Chile)

arXiv:2307.11851·astro-ph.SR·October 11, 2023

The rich molecular environment of the luminous blue variable star AFGL 2298

J. R. Rizzo (1, 2), C. Bordiu (3), C. Buemi (3), P. Leto (3), A., Ingallinera (3), F. Bufano (3), G. Umana (3), L. Cerrigone (4), and C., Trigilio (3) ((1) ISDEFE, (2) Centro de Astrobiologia - CSIC/INTA, (3) INAF -, Catania, (4) ALMA Chile)

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TL;DR

This study explores the molecular environment around the LBV star AFGL 2298, revealing complex circumstellar structures, multiple velocity components, and chemical signatures indicative of past mass-loss events, enhancing understanding of massive star evolution.

Contribution

First detailed molecular inventory of AFGL 2298's circumstellar environment, identifying multiple velocity components and their likely origins, shedding light on the star's mass-loss history.

Findings

01

Detection of various carbon- and nitrogen-bearing molecules.

02

Identification of three distinct velocity components.

03

Evidence of past stellar mass-loss events.

Abstract

We investigated the molecular environment of AFGL 2298, an obscured Galactic Luminous blue variable (LBV) star which hosts a highly structured circumstellar environment with hints of multiple mass-loss events in the last few $1 0^{4}$ a. We present spectral line observations of AFGL 2298 at 1 and 3 mm performed with the IRAM 30m radio telescope. Furthermore, we report the detection of several carbon- and nitrogen- bearing species (CO, $^{13}$ CO, C $^{18}$ O, C $^{17}$ O, HCO $^{+}$ , HCN, HNC, H $^{13}$ CO $^{+}$ , CN, N $_{2}$ H $^{+}$ , and C $_{2}$ H) in the surroundings of AFGL 2298. In addition, we identified three velocity components that clearly stand out from the Galactic background. The morphology, kinematics, masses and isotopic ratios, together with a comparative study of the fractional abundances, lead us to suggest that two of these components (36 and 70 km/s) have a stellar origin. The other component…

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Taxonomy

TopicsAstrophysics and Star Formation Studies · Stellar, planetary, and galactic studies · Spectroscopy and Laser Applications