The HST Large Programme on ω centauri: VII. The white dwarf cooling sequence

M. Scalco; M. Salaris; L. R. Bedin; M. Griggio; A. Bellini; M. Libralato; D. Nardiello; E. Vesperini; J. Anderson; P. Bergeron; A. Burgasser; D. Apai

doi:10.1051/0004-6361/202451288

The HST Large Programme on ω centauri: VII. The white dwarf cooling sequence

M. Scalco, M. Salaris, L. R. Bedin, M. Griggio, A. Bellini, M. Libralato, D. Nardiello, E. Vesperini, J. Anderson, P. Bergeron, A. Burgasser, D. Apai

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Abstract

We present a study of the white dwarf (WD) cooling sequence (CS) in the globular cluster (GC) Omega Centauri (or NGC 5139; hereafter, ωCen), the primary goal of a dedicated Hubble Space Telescope (HST) programme. We find that the peak at the termination of the WD CS is located at m_F606W = 30.1 ± 0.2 (equivalent to V ∼ 31). The brighter part of ωCen's WD CS is consistent with the presence of massive He-core WDs, in agreement with previous HST analyses with ultraviolet and blue filters. Comparative analyses of the WD luminosity function (LF) and theoretical counterparts show that a single-age population for the cluster is compatible with the data. However, an analysis of only the WD LF cannot entirely exclude the possibility of an age range, due to uncertainties in the present-day WD mass function, with a star formation history potentially spanning up to 5 billion years, predominantly comprising stars about 13 Gyr old, with a minority potentially as young as 8 Gyr. This underscores the need for global spectroscopic and photometric investigations that simultaneously include both the WD populations and the previous evolutionary phases, in order to fully understand the cluster's diverse chemical compositions and ages.

Original language	English (US)
Article number	A96
Journal	Astronomy and astrophysics
Volume	691
DOIs	https://doi.org/10.1051/0004-6361/202451288
State	Published - Nov 1 2024

Keywords

Globular clusters: individual: NGC 5139
White dwarfs

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1051/0004-6361/202451288

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title = "The HST Large Programme on ω centauri: VII. The white dwarf cooling sequence",

abstract = "We present a study of the white dwarf (WD) cooling sequence (CS) in the globular cluster (GC) Omega Centauri (or NGC 5139; hereafter, ωCen), the primary goal of a dedicated Hubble Space Telescope (HST) programme. We find that the peak at the termination of the WD CS is located at mF606W = 30.1 ± 0.2 (equivalent to V ∼ 31). The brighter part of ωCen's WD CS is consistent with the presence of massive He-core WDs, in agreement with previous HST analyses with ultraviolet and blue filters. Comparative analyses of the WD luminosity function (LF) and theoretical counterparts show that a single-age population for the cluster is compatible with the data. However, an analysis of only the WD LF cannot entirely exclude the possibility of an age range, due to uncertainties in the present-day WD mass function, with a star formation history potentially spanning up to 5 billion years, predominantly comprising stars about 13 Gyr old, with a minority potentially as young as 8 Gyr. This underscores the need for global spectroscopic and photometric investigations that simultaneously include both the WD populations and the previous evolutionary phases, in order to fully understand the cluster's diverse chemical compositions and ages.",

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T1 - The HST Large Programme on ω centauri

T2 - VII. The white dwarf cooling sequence

AU - Scalco, M.

AU - Salaris, M.

AU - Bedin, L. R.

AU - Griggio, M.

AU - Bellini, A.

AU - Libralato, M.

AU - Nardiello, D.

AU - Vesperini, E.

AU - Anderson, J.

AU - Bergeron, P.

AU - Burgasser, A.

AU - Apai, D.

PY - 2024/11/1

Y1 - 2024/11/1

N2 - We present a study of the white dwarf (WD) cooling sequence (CS) in the globular cluster (GC) Omega Centauri (or NGC 5139; hereafter, ωCen), the primary goal of a dedicated Hubble Space Telescope (HST) programme. We find that the peak at the termination of the WD CS is located at mF606W = 30.1 ± 0.2 (equivalent to V ∼ 31). The brighter part of ωCen's WD CS is consistent with the presence of massive He-core WDs, in agreement with previous HST analyses with ultraviolet and blue filters. Comparative analyses of the WD luminosity function (LF) and theoretical counterparts show that a single-age population for the cluster is compatible with the data. However, an analysis of only the WD LF cannot entirely exclude the possibility of an age range, due to uncertainties in the present-day WD mass function, with a star formation history potentially spanning up to 5 billion years, predominantly comprising stars about 13 Gyr old, with a minority potentially as young as 8 Gyr. This underscores the need for global spectroscopic and photometric investigations that simultaneously include both the WD populations and the previous evolutionary phases, in order to fully understand the cluster's diverse chemical compositions and ages.

AB - We present a study of the white dwarf (WD) cooling sequence (CS) in the globular cluster (GC) Omega Centauri (or NGC 5139; hereafter, ωCen), the primary goal of a dedicated Hubble Space Telescope (HST) programme. We find that the peak at the termination of the WD CS is located at mF606W = 30.1 ± 0.2 (equivalent to V ∼ 31). The brighter part of ωCen's WD CS is consistent with the presence of massive He-core WDs, in agreement with previous HST analyses with ultraviolet and blue filters. Comparative analyses of the WD luminosity function (LF) and theoretical counterparts show that a single-age population for the cluster is compatible with the data. However, an analysis of only the WD LF cannot entirely exclude the possibility of an age range, due to uncertainties in the present-day WD mass function, with a star formation history potentially spanning up to 5 billion years, predominantly comprising stars about 13 Gyr old, with a minority potentially as young as 8 Gyr. This underscores the need for global spectroscopic and photometric investigations that simultaneously include both the WD populations and the previous evolutionary phases, in order to fully understand the cluster's diverse chemical compositions and ages.

KW - Globular clusters: individual: NGC 5139

KW - White dwarfs

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ER -

The HST Large Programme on ω centauri: VII. The white dwarf cooling sequence

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