Globular Cluster UVIT Legacy Survey (GlobULeS). III. Omega Centauri in Far-ultraviolet

Prabhu, Deepthi S. and Subramaniam, Annapurni and Sahu, Snehalata and Chung, Chul and Leigh, Nathan W. C. and Dalessandro, Emanuele and Chatterjee, Sourav and Rao, N. Kameswara and Shara, Michael and Côté, Patrick and Choudhury, Samyaday and Pandey, Gajendra and Valcarce, Aldo A. R. and Singh, Gaurav and Postma, Joesph E. and Rani, Sharmila and Bandyopadhyay, Avrajit and Geller, Aaron M. and Hutchings, John and Puzia, Thomas and Simunovic, Mirko and Sohn, Young-Jong and Thirupathi, Sivarani and Yadav, Ramakant Singh (2022) Globular Cluster UVIT Legacy Survey (GlobULeS). III. Omega Centauri in Far-ultraviolet. The Astrophysical Journal Letters, 939 (2). L20. ISSN 2041-8205

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Abstract

We present the first comprehensive study of the most massive globular cluster, Omega Centauri, in the far-ultraviolet (FUV), extending from the center to ∼28% of the tidal radius using the Ultraviolet Imaging Telescope on board AstroSat. A comparison of the FUV-optical color–magnitude diagrams with available canonical models reveals that horizontal branch (HB) stars bluer than the knee (hHBs) and the white dwarfs (WDs) are fainter in the FUV by ∼0.5 mag than model predictions. They are also fainter than their counterparts in M13, another massive cluster. We simulated HB with at least five subpopulations, including three He-rich populations with a substantial He enrichment of Y up to 0.43 dex, to reproduce the observed FUV distribution. We find the He-rich younger subpopulations to be radially more segregated than the He-normal older ones, suggesting an in situ enrichment from older generations. The ω Cen hHBs span the same Teff range as their M13 counterparts, but some have smaller radii and lower luminosities. This may suggest that a fraction of ω Cen hHBs are less massive than those of M13, similar to the result derived from earlier spectroscopic studies of outer extreme HB stars. The WDs in ω Cen and M13 have similar luminosity–radius–Teff parameters, and 0.44–0.46 M⊙ He-core WD model tracks evolving from progenitors with Y = 0.4 dex are found to fit the majority of these. This study provides constraints on the formation models of ω Cen based on the estimated range in age, [Fe/H], and Y (in particular) for the HB stars.

Item Type: Article
Subjects: AP Academic Press > Physics and Astronomy
Depositing User: Unnamed user with email support@apacademicpress.com
Date Deposited: 21 Apr 2023 05:54
Last Modified: 24 Sep 2024 11:05
URI: http://info.openarchivespress.com/id/eprint/1036

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