GHOST commissioning science results – II: a very metal-poor star witnessing the early galactic assembly

Sestito, Federico; Hayes, Christian R; Venn, Kim A; Jensen, Jaclyn; McConnachie, Alan W; Pazder, John; Waller, Fletcher; Ardern-Arentsen, Anke; Jablonka, Pascale; Martin, Nicolas F; Matsuno, Tadafumi; Navarro, Julio F; Starkenburg, Else; Vitali, Sara; Bassett, John; Berg, Trystyn A M; Diaz, Ruben; Edgar, Michael L; Firpo, Veronica; Gomez-Jimenez, Manuel; Kalari, Venu; Lambert, Sam; Lawrence, Jon; Robertson, Gordon; Ruiz-Carmona, Roque; Salinas, Ricardo; Sebo, Kim M; Venkatesan, Sudharshan

doi:10.1093/mnras/stae244

Monthly Notices of the Royal Astronomical Society

2024

DOI: 10.1093/mnras/stae244

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GHOST commissioning science results – II: a very metal-poor star witnessing the early galactic assembly

Federico Sestito,

Christian R Hayes,

Kim A Venn

et al.

Abstract: This study focuses on Pristine$\_180956.78$−294759.8 (hereafter P180956, [Fe/H] = −1.95 ± 0.02), a star selected from the Pristine Inner Galaxy Survey (PIGS), and followed-up with the recently commissioned Gemini High-resolution Optical SpecTrograph (GHOST) at the Gemini South telescope. The GHOST spectrograph’s high efficiency in the blue spectral region (3700 − 4800 Å) enables the detection of elemental tracers of early supernovae (e.g., Al, Mn, Sr, Eu). The star exhibits chemical signatures resembling those… Show more

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Cited by 7 publications

References 157 publications

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The Pristine survey

de La Vernhe,

Hill,

Kordopatis

et al. 2024

A&A

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Metal-poor stars hold key information on the early Milky Way. Through the identification and characterisation of substructures, one can understand internal mechanisms (including merger and accretion events), which are indispensable to reconstruct the formation history of the Galaxy. To allow an investigation of a population of very metal-poor stars ( Fe/H < -1.7) with disc-like orbits (planar and prograde), high angular momenta ($L_z$/$J_ tot $ > 0.5) and rotational velocities ($V_ $) proposed in the literature, we used a sample of sim 3M giant stars with Gaia DR3 BP/RP information and Pristine-Gaia metallicities down to -4.0 dex that we aimed to decontaminate. To achieve this, we constructed a sample as free as possible from spurious photometric estimates, an issue commonly encountered for high $V_ metal-poor stars. We created a statistically robust sample of sim 36 000 Pristine-Gaia very metal-poor ( Fe/H < -1.7) giant stars, using APOGEE and LAMOST data (adding GALAH and GSP-spec for verification) to estimate and remove contamination. We investigated the spatial and kinematic properties of the decontaminated sample, making use of $V_ as well as the action space, which are both powerful tools to disentangle stellar populations. The global distribution of very metal-poor stars in our sample shows the typical kinematics, orbital properties, and spatial distributions of a halo; however, as in previous works, we found a pronounced asymmetry in the $L_z$ and $V_ distributions, in favour of prograde stars. We showed that this excess is predominantly due to prograde-planar stars (10 $<!PCT!>$ of the very metal-poor population), which can be detected down to Fe/H = -2.9 at a 2sigma confidence level. This prograde-planar population contains stars with $V_ $ and $Z_ max $ < 1.5\,kpc. While the overall orbital configurations max $ - $R_ max $ or action space distributions) of our sample match that of a halo, the highly prograde and planar subset (2 $<!PCT!>$ of the very metal-poor population) also bears characteristics classically associated with a thick disc: (i) a spatial distribution compatible with a short-scaled thick disc, (ii) a $Z_ max $ - $R_ max $ distribution similar to the one expected from the thick disc prediction of the Gaia Universe Model Snapshot, and (iii) a challenge to erase its signature assuming a stationary or prograde halo with $ V_ phi $ sim 30-40 km.s$^ $. Altogether, these results seem to rule out that these highly prograde and planar stars are part of a thin disc population and, instead, support a contribution from a metal-weak thick disc. Higher resolution spectra are needed to fully disentangle the origin(s) of the population.

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The Pristine survey

de La Vernhe,

Hill,

Kordopatis

et al. 2024

A&A

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The Pristine Inner Galaxy Survey (PIGS)

Sestito,

Vitali,

Jofre

et al. 2024

A&A

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The most metal-poor stars provide valuable insights into the early chemical enrichment history of a system, carrying the chemical imprints of the first generations of supernovae. The most metal-poor region of the Sagittarius dwarf galaxy remains inadequately observed and characterised. To date, only $ stars with $ have been chemically analysed with high-resolution spectroscopy. In this study, we present the most extensive chemical abundance analysis of 12 low-metallicity stars with metallicities down to $ and located in the main body of Sagittarius. These targets, selected from the Pristine Inner Galaxy Survey, were observed using the MIKE high-resolution spectrograph at the Magellan-Clay telescope, which allowed us to measure up to 17 chemical species. The chemical composition of these stars reflects the imprint of a variety of type II supernovae (SNe II). A combination of low- to intermediate-mass high-energy SNe and hypernovae ($ is required to account for the abundance patterns of the lighter elements up to the Fe-peak. The trend of the heavy elements suggests the involvement of compact binary merger events and fast-rotating (up to $ intermediate-mass to massive metal-poor stars ($ that are the sources of rapid and slow processes, respectively. Additionally, asymptotic giant branch stars contribute to a wide dispersion of Ba/Mg and Ba/Eu . The absence of an $ in our data indicates that type Ia supernovae did not contribute in the very metal-poor region ($ However, they might have started to pollute the interstellar medium at $ given the relatively low Co/Fe in this metallicity region.

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GHOST commissioning science results – III. Characterizing an iron-poor damped Lyman α system

Berg,

Hayes,

Cristiani

et al. 2024

Monthly Notices of the Royal Astronomical Society

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The Gemini High-resolution Optical SpecTrograph (GHOST) is a new echelle spectrograph available on the Gemini-South telescope as of Semester 2024A. We present the first high resolution spectrum of the quasar J1449−1227 (redshift zem = 3.27) using data taken during the commissioning of GHOST. The observed quasar hosts an intervening iron-poor ([Fe/H] =−2.5) damped Lyman α (DLA) system at redshift z = 2.904. Taking advantage of the high spectral resolving power of GHOST (R ≈ 55000), we are able to accurately model the metal absorption lines of the metal-poor DLA and find a supersolar [Si/Fe], suggesting the DLA gas is in an early stage of chemical enrichment. Using simple ionization models, we find that the large range in the C iv/Si iv column density ratio of individual components within the DLA’s high ionization absorption profile can be reproduced by several metal-poor Lyman limit systems surrounding the low-ionization gas of the DLA. It is possible that this metal-poor DLA resides within a complex system of metal-poor galaxies or filaments with inflowing gas. The high spectral resolution, wavelength coverage and sensitivity of GHOST makes it an ideal spectrograph for characterizing the chemistry and kinematics of quasar absorption lines.

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GHOST commissioning science results – II: a very metal-poor star witnessing the early galactic assembly

Cited by 7 publications

References 157 publications

The Pristine survey

The Pristine survey

The Pristine Inner Galaxy Survey (PIGS)

GHOST commissioning science results – III. Characterizing an iron-poor damped Lyman α system

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