A Low Metallicity Massive Contact Binary Star System Candidate in WLM Identified by Hubble and James Webb Space Telescope Imaging

Maude Gull; Daniel R. Weisz; Kareem El-Badry; Jan Henneco; Alessandro Savino; Meredith Durbin; Yumi Choi; Roger E. Cohen; Andrew A. Cole; Matteo Correnti; Julianne J. Dalcanton; Karoline M. Gilbert; Steven R. Goldman; Puragra Guhathakurta; Kristen B.W. McQuinn; Max J.B. Newman; Evan D. Skillman; Benjamin F. Williams

doi:10.3847/1538-4357/adca39

A Low Metallicity Massive Contact Binary Star System Candidate in WLM Identified by Hubble and James Webb Space Telescope Imaging

Maude Gull, Daniel R. Weisz, Kareem El-Badry, Jan Henneco, Alessandro Savino, Meredith Durbin, Yumi Choi, Roger E. Cohen, Andrew A. Cole, Matteo Correnti, Julianne J. Dalcanton, Karoline M. Gilbert, Steven R. Goldman, Puragra Guhathakurta, Kristen B.W. McQuinn, Max J.B. Newman, Evan D. Skillman, Benjamin F. Williams

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

Abstract

We present archival Hubble Space Telescope (HST) and JWST ultraviolet through near-infrared time series photometric observations of a massive minimal-contact binary candidate in the metal-poor galaxy Wolf–Lundmark–Melotte (Z = 0.14Z_☉). This discovery marks the lowest metallicity contact binary candidate observed to date. We determine the nature of the two stars in the binary by using the eclipsing binary modeling software PHysics Of Eclipsing BinariEs (PHOEBE) to train a neural network to fit our observed panchromatic multiepoch photometry. The best-fit model consists of two hot main-sequence stars ((Formula presented) M_☉, and (Formula presented) M_☉). We discuss plausible evolutionary paths for the system, and suggest the system is likely to be currently in a contact phase. Future spectroscopy will help to further narrow down evolutionary pathways. This work showcases a novel use of data of JWST and HST imaging originally taken to characterize RR Lyrae. We expect time series imaging from LSST, BlackGEM, etc. to uncover similar types of objects in nearby galaxies.

Original language	English (US)
Article number	25
Journal	Astrophysical Journal
Volume	986
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/adca39
State	Published - Jun 2025

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© 2025. The Author(s). Published by the American Astronomical Society.

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Gull, M., Weisz, D. R., El-Badry, K., Henneco, J., Savino, A., Durbin, M., Choi, Y., Cohen, R. E., Cole, A. A., Correnti, M., Dalcanton, J. J., Gilbert, K. M., Goldman, S. R., Guhathakurta, P., McQuinn, K. B. W., Newman, M. J. B., Skillman, E. D., & Williams, B. F. (2025). A Low Metallicity Massive Contact Binary Star System Candidate in WLM Identified by Hubble and James Webb Space Telescope Imaging. Astrophysical Journal, 986(1), Article 25. https://doi.org/10.3847/1538-4357/adca39

Gull, M, Weisz, DR, El-Badry, K, Henneco, J, Savino, A, Durbin, M, Choi, Y, Cohen, RE, Cole, AA, Correnti, M, Dalcanton, JJ, Gilbert, KM, Goldman, SR, Guhathakurta, P, McQuinn, KBW, Newman, MJB, Skillman, ED & Williams, BF 2025, 'A Low Metallicity Massive Contact Binary Star System Candidate in WLM Identified by Hubble and James Webb Space Telescope Imaging', Astrophysical Journal, vol. 986, no. 1, 25. https://doi.org/10.3847/1538-4357/adca39

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title = "A Low Metallicity Massive Contact Binary Star System Candidate in WLM Identified by Hubble and James Webb Space Telescope Imaging",

abstract = "We present archival Hubble Space Telescope (HST) and JWST ultraviolet through near-infrared time series photometric observations of a massive minimal-contact binary candidate in the metal-poor galaxy Wolf–Lundmark–Melotte (Z = 0.14Z☉). This discovery marks the lowest metallicity contact binary candidate observed to date. We determine the nature of the two stars in the binary by using the eclipsing binary modeling software PHysics Of Eclipsing BinariEs (PHOEBE) to train a neural network to fit our observed panchromatic multiepoch photometry. The best-fit model consists of two hot main-sequence stars ((Formula presented) M☉, and (Formula presented) M☉). We discuss plausible evolutionary paths for the system, and suggest the system is likely to be currently in a contact phase. Future spectroscopy will help to further narrow down evolutionary pathways. This work showcases a novel use of data of JWST and HST imaging originally taken to characterize RR Lyrae. We expect time series imaging from LSST, BlackGEM, etc. to uncover similar types of objects in nearby galaxies.",

author = "Maude Gull and Weisz, \{Daniel R.\} and Kareem El-Badry and Jan Henneco and Alessandro Savino and Meredith Durbin and Yumi Choi and Cohen, \{Roger E.\} and Cole, \{Andrew A.\} and Matteo Correnti and Dalcanton, \{Julianne J.\} and Gilbert, \{Karoline M.\} and Goldman, \{Steven R.\} and Puragra Guhathakurta and McQuinn, \{Kristen B.W.\} and Newman, \{Max J.B.\} and Skillman, \{Evan D.\} and Williams, \{Benjamin F.\}",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

year = "2025",

month = jun,

doi = "10.3847/1538-4357/adca39",

language = "English (US)",

volume = "986",

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T1 - A Low Metallicity Massive Contact Binary Star System Candidate in WLM Identified by Hubble and James Webb Space Telescope Imaging

AU - Gull, Maude

AU - Weisz, Daniel R.

AU - El-Badry, Kareem

AU - Henneco, Jan

AU - Savino, Alessandro

AU - Durbin, Meredith

AU - Choi, Yumi

AU - Cohen, Roger E.

AU - Cole, Andrew A.

AU - Correnti, Matteo

AU - Dalcanton, Julianne J.

AU - Gilbert, Karoline M.

AU - Goldman, Steven R.

AU - Guhathakurta, Puragra

AU - McQuinn, Kristen B.W.

AU - Newman, Max J.B.

AU - Skillman, Evan D.

AU - Williams, Benjamin F.

PY - 2025/6

Y1 - 2025/6

N2 - We present archival Hubble Space Telescope (HST) and JWST ultraviolet through near-infrared time series photometric observations of a massive minimal-contact binary candidate in the metal-poor galaxy Wolf–Lundmark–Melotte (Z = 0.14Z☉). This discovery marks the lowest metallicity contact binary candidate observed to date. We determine the nature of the two stars in the binary by using the eclipsing binary modeling software PHysics Of Eclipsing BinariEs (PHOEBE) to train a neural network to fit our observed panchromatic multiepoch photometry. The best-fit model consists of two hot main-sequence stars ((Formula presented) M☉, and (Formula presented) M☉). We discuss plausible evolutionary paths for the system, and suggest the system is likely to be currently in a contact phase. Future spectroscopy will help to further narrow down evolutionary pathways. This work showcases a novel use of data of JWST and HST imaging originally taken to characterize RR Lyrae. We expect time series imaging from LSST, BlackGEM, etc. to uncover similar types of objects in nearby galaxies.

AB - We present archival Hubble Space Telescope (HST) and JWST ultraviolet through near-infrared time series photometric observations of a massive minimal-contact binary candidate in the metal-poor galaxy Wolf–Lundmark–Melotte (Z = 0.14Z☉). This discovery marks the lowest metallicity contact binary candidate observed to date. We determine the nature of the two stars in the binary by using the eclipsing binary modeling software PHysics Of Eclipsing BinariEs (PHOEBE) to train a neural network to fit our observed panchromatic multiepoch photometry. The best-fit model consists of two hot main-sequence stars ((Formula presented) M☉, and (Formula presented) M☉). We discuss plausible evolutionary paths for the system, and suggest the system is likely to be currently in a contact phase. Future spectroscopy will help to further narrow down evolutionary pathways. This work showcases a novel use of data of JWST and HST imaging originally taken to characterize RR Lyrae. We expect time series imaging from LSST, BlackGEM, etc. to uncover similar types of objects in nearby galaxies.

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ER -

A Low Metallicity Massive Contact Binary Star System Candidate in WLM Identified by Hubble and James Webb Space Telescope Imaging

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