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Start Over Author "Hawkins, Keith" Journal monthly notices of the royal astronomical society
26 results on '"Hawkins, Keith"'

1. The chemical diversity of the metal-poor Milky Way.

Author

Buckley, Nicole, Das, Payel, Jofré, Paula, Yates, Robert M, and Hawkins, Keith

Subjects
STELLAR populations, MILKY Way, PRINCIPAL components analysis, COPPER, MAGNESIUM
Abstract

We present a detailed study of the chemical diversity of the metal-poor Milky Way using data from the GALAH DR3 survey. Considering 17 chemical abundances relative to iron ([X/Fe]) for 9923 stars, we employ principal component analysis (PCA) and extreme deconvolution (XD) to identify 10 distinct stellar groups. This approach, free from chemical or dynamical cuts, reveals known populations, including the accreted halo, thick disc, thin disc, and in situ halo. The thick disc is characterized by multiple substructures, suggesting it comprises stars formed in diverse environments. Our findings highlight the limited discriminatory power of magnesium in separating accreted and disc stars. Elements such as Ba, Al, Cu, and Sc are critical in distinguishing disc from accreted stars, while Ba, Y, Eu, and Zn differentiate disc and accreted stars from the in situ halo. This study demonstrates the potential power of combining a latent space representation of the data (PCA) with a clustering algorithm (XD) in Galactic archaeology, in providing new insights into the Galaxy's assembly and evolutionary history. [ABSTRACT FROM AUTHOR]

Published
2024
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2. A detailed chemical study of the extreme velocity stars in the galaxy.

Author

Nelson, Tyler, Hawkins, Keith, Reggiani, Henrique, Garza, Diego, Wyse, Rosemary F G, and Woody, Turner

Subjects
*STARS, *TRACE elements, *CHEMICAL elements, *NEUTRON capture, *VELOCITY, *DWARF galaxies, *STELLAR dynamics, *GLOBULAR clusters
Abstract

Two decades on, the study of hypervelocity stars is still in its infancy. These stars can provide novel constraints on the total mass of the Galaxy and its dark matter distribution. However how these stars are accelerated to such high velocities is unclear. Various proposed production mechanisms for these stars can be distinguished using chemo-dynamic tagging. The advent of Gaia and other large surveys have provided hundreds of candidate hyper velocity objects to target for ground-based high-resolution follow-up observations. We conduct high-resolution spectroscopic follow-up observations of 16 candidate late-type hyper velocity stars using the Apache Point Observatory and the McDonald Observatory. We derive atmospheric parameters and chemical abundances for these stars. We measure up to 22 elements, including the following nucleosynthetic families: |$\alpha$| (Mg, Si, Ca, and Ti), light/odd-Z (Na, Al, V, Cu, and Sc), Fe-peak (Fe, Cr, Mn, Co, Ni, and Zn), and neutron capture (Sr, Y, Zr, Ba, La, Nd, and Eu). Our kinematic analysis shows one candidate is unbound, two are marginally bound, and the remainder are bound to the Galaxy. Finally, for the three unbound or marginally bound stars, we perform orbit integration to locate possible globular cluster or dwarf galaxy progenitors. We do not find any likely candidate systems for these stars and conclude that the unbound stars are likely from the the stellar halo, in agreement with the chemical results. The remaining bound stars are all chemically consistent with the stellar halo as well. [ABSTRACT FROM AUTHOR]

Published
2024
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5. A red giant orbiting a black hole

Author

El-Badry, Kareem, primary, Rix, Hans-Walter, additional, Cendes, Yvette, additional, Rodriguez, Antonio C, additional, Conroy, Charlie, additional, Quataert, Eliot, additional, Hawkins, Keith, additional, Zari, Eleonora, additional, Hobson, Melissa, additional, Breivik, Katelyn, additional, Rau, Arne, additional, Berger, Edo, additional, Shahaf, Sahar, additional, Seeburger, Rhys, additional, Burdge, Kevin B, additional, Latham, David W, additional, Buchhave, Lars A, additional, Bieryla, Allyson, additional, Bashi, Dolev, additional, Mazeh, Tsevi, additional, and Faigler, Simchon, additional

Published
2023
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7. A Sun-like star orbiting a black hole

Author

El-Badry, Kareem, primary, Rix, Hans-Walter, additional, Quataert, Eliot, additional, Howard, Andrew W, additional, Isaacson, Howard, additional, Fuller, Jim, additional, Hawkins, Keith, additional, Breivik, Katelyn, additional, Wong, Kaze W K, additional, Rodriguez, Antonio C, additional, Conroy, Charlie, additional, Shahaf, Sahar, additional, Mazeh, Tsevi, additional, Arenou, Frédéric, additional, Burdge, Kevin B, additional, Bashi, Dolev, additional, Faigler, Simchon, additional, Weisz, Daniel R, additional, Seeburger, Rhys, additional, Almada Monter, Silvia, additional, and Wojno, Jennifer, additional

Published
2022
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10. Sun-like star orbiting a black hole.

Author

El-Badry, Kareem, Rix, Hans-Walter, Quataert, Eliot, Howard, Andrew W, Isaacson, Howard, Fuller, Jim, Hawkins, Keith, Breivik, Katelyn, Wong, Kaze W K, Rodriguez, Antonio C, Conroy, Charlie, Shahaf, Sahar, Mazeh, Tsevi, Arenou, Frédéric, Burdge, Kevin B, Bashi, Dolev, Faigler, Simchon, Weisz, Daniel R, Seeburger, Rhys, and Almada Monter, Silvia

Subjects
BLACK holes, STELLAR orbits, BINARY black holes, STELLAR atmospheres, STELLAR mass, ORBITS (Astronomy)
Abstract

We report discovery of a bright, nearby (⁠|$G = 13.8;\, \, d = 480\, \rm pc$|⁠) Sun-like star orbiting a dark object. We identified the system as a black hole candidate via its astrometric orbital solution from the Gaia mission. Radial velocities validated and refined the Gaia solution, and spectroscopy ruled out significant light contributions from another star. Joint modelling of radial velocities and astrometry constrains the companion mass of |$M_2 = 9.62\pm 0.18\, \mathrm{M}_{\odot }$|⁠. The spectroscopic orbit alone sets a minimum companion mass of |$M_2\gt 5\, \mathrm{M}_{\odot }$|⁠ ; if the companion were a |$5\, \mathrm{M}_{\odot }$| star, it would be 500 times more luminous than the entire system. These constraints are insensitive to the mass of the luminous star, which appears as a slowly rotating G dwarf (⁠|$T_{\rm eff}=5850\, \rm K$|⁠ , log  g = 4.5, |$M=0.93\, \mathrm{M}_{\odot }$|⁠), with near-solar metallicity (⁠|$\rm [Fe/H] = -0.2$|⁠) and an unremarkable abundance pattern. We find no plausible astrophysical scenario that can explain the orbit and does not involve a black hole. The orbital period, P orb = 185.6 d, is longer than that of any known stellar-mass black hole binary. The system's modest eccentricity (e = 0.45), high metallicity, and thin-disc Galactic orbit suggest that it was born in the Milky Way disc with at most a weak natal kick. How the system formed is uncertain. Common envelope evolution can only produce the system's wide orbit under extreme and likely unphysical assumptions. Formation models involving triples or dynamical assembly in an open cluster may be more promising. This is the nearest known black hole by a factor of 3, and its discovery suggests the existence of a sizable population of dormant black holes in binaries. Future Gaia releases will likely facilitate the discovery of dozens more. [ABSTRACT FROM AUTHOR]

Published
2023
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14. detailed chemical abundance patterns of accreted halo stars from the optical to infrared.

Author

Carrillo, Andreia, Hawkins, Keith, Jofré, Paula, de Brito Silva, Danielle, Das, Payel, and Lucey, Madeline

Subjects
*GALACTIC evolution, *MILKY Way, *STELLAR populations, *OPTICAL spectra, *OPTICAL resolution, *STAR formation
Abstract

Understanding the assembly of our Galaxy requires us to also characterize the systems that helped build it. In this work, we accomplish this by exploring the chemistry of accreted halo stars from Gaia-Enceladus/Gaia-Sausage (GES) selected in the infrared from the Apache Point Observatory Galactic Evolution Experiment (APOGEE) Data Release 16. We use high resolution optical spectra for 62 GES stars to measure abundances in 20 elements spanning the α, Fe-peak, light, odd-Z, and notably, the neutron-capture groups of elements to understand their trends in the context of and in contrast to the Milky Way and other stellar populations. Using these derived abundances we find that the optical and the infrared abundances agree to within 0.15 dex except for O, Co, Na, Cu, and Ce. These stars have enhanced neutron-capture abundance trends compared to the Milky Way, and their [Eu/Mg] and neutron-capture abundance ratios (e.g. [Y/Eu], [Ba/Eu], [Zr/Ba], [La/Ba], and [Nd/Ba]) point to r-process enhancement and a delay in s-process enrichment. Their [α/Fe] trend is lower than the Milky Way trend for [Fe/H] > −1.5 dex, similar to previous studies of GES stars and consistent with the picture that these stars formed in a system with a lower rate of star formation. This is further supported by their depleted abundances in Ni, Na, and Cu abundances, again, similar to previous studies of low-α stars with accreted origins. [ABSTRACT FROM AUTHOR]

Published
2022
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15. GALAH view of the chemical homogeneity and ages of stellar strings identified in Gaia.

Author

Manea, Catherine, Hawkins, Keith, and Maas, Zachary G

Subjects
*INTERSTELLAR medium, *HOMOGENEITY, *STELLAR populations, *AGE distribution, *STAR formation
Abstract

The advent of Gaia has led to the discovery of nearly 300 elongated stellar associations (called 'strings') spanning hundreds of parsecs in length and mere tens of parsecs in width. These newfound populations present an excellent laboratory for studying the assembly process of the Milky Way thin disc. In this work, we use data from GALAH DR3 to investigate the chemical distributions and ages of 18 newfound stellar populations, 10 of which are strings and 8 of which are compact in morphology. We estimate the intrinsic abundance dispersions in [X/H] of each population and compare them with those of both their local fields and the open cluster (OC) M 67. We find that all but one of these groups are more chemically homogeneous than their local fields. Furthermore, half of the strings, namely Theias 139, 169, 216, 303, and 309, have intrinsic [X/H] dispersions that range between 0.01 and 0.07 dex in most elements, equivalent to those of many OCs. These results provide important new observational constraints on star formation and the chemical homogeneity of the local interstellar medium (ISM). We investigate each population's Li and chemical clock abundances (e.g. [Sc/Ba], [Ca/Ba], [Ti/Ba], and [Mg/Y]) and find that the ages suggested by chemistry generally support the isochronal ages in all but six structures. This work highlights the unique advantages that chemistry holds in the study of kinematically related stellar groups. [ABSTRACT FROM AUTHOR]

Published
2022
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20. COMBS Survey – III. The chemodynamical origins of metal-poor bulge stars.

Author

Lucey, Madeline, Hawkins, Keith, Ness, Melissa, Nelson, Tyler, Debattista, Victor P, Luna, Alice, Bensby, Thomas, Freeman, Kenneth C, and Kobayashi, Chiaki

Subjects
*STELLAR populations, *GLOBULAR clusters, *MILKY Way, *GALACTIC bulges, *STAR clusters, *GALACTIC evolution, *SUPERNOVAE
Abstract

The characteristics of the stellar populations in the Galactic bulge inform and constrain the Milky Way's formation and evolution. The metal-poor population is particularly important in light of cosmological simulations, which predict that some of the oldest stars in the Galaxy now reside in its centre. The metal-poor bulge appears to consist of multiple stellar populations that require dynamical analyses to disentangle. In this work, we undertake a detailed chemodynamical study of the metal-poor stars in the inner Galaxy. Using R ∼ 20 000 VLT/GIRAFFE spectra of 319 metal-poor (−2.55 dex ≤ [Fe/H] ≤ 0.83 dex, with |$\overline{\rm {[Fe/H]}}$| = −0.84 dex) stars, we perform stellar parameter analysis and report 12 elemental abundances (C, Na, Mg, Al, Si, Ca, Sc, Ti, Cr, Mn, Zn, Ba, and Ce) with precisions of ≈0.10 dex. Based on kinematic and spatial properties, we categorize the stars into four groups, associated with the following Galactic structures: the inner bulge, the outer bulge, the halo, and the disc. We find evidence that the inner and outer bulge population is more chemically complex (i.e. higher chemical dimensionality and less correlated abundances) than the halo population. This result suggests that the older bulge population was enriched by a larger diversity of nucleosynthetic events. We also find one inner bulge star with a [Ca/Mg] ratio consistent with theoretical pair-instability supernova yields and two stars that have chemistry consistent with globular cluster stars. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Know thy star, know thy planet: chemo-kinematically characterizing TESS targets.

Author

Carrillo, Andreia, Hawkins, Keith, Bowler, Brendan P, Cochran, William, and Vanderburg, Andrew

Subjects
*DISTRIBUTION (Probability theory), *STARS, *GALACTIC halos, *PLANETARY systems, *KINEMATICS
Abstract

The Transiting Exoplanet Survey Satellite (TESS) has already begun to discover what will ultimately be thousands of exoplanets around nearby cool bright stars. These potential host stars must be well understood to accurately characterize exoplanets at the individual and population levels. We present a catalogue of the chemo-kinematic properties of 2218 434 stars in the TESS Candidate Target List using survey data from Gaia  DR2, APOGEE, GALAH, RAVE, LAMOST, and photometrically derived stellar properties from SkyMapper. We compute kinematic thin disc, thick disc, and halo membership probabilities for these stars and find that though the majority of TESS targets are in the thin disc, 4 per cent of them reside in the thick disc and <1 per cent of them are in the halo. The TESS Objects of Interest in our sample also display similar contributions from the thin disc, thick disc, and halo with a majority of them being in the thin disc. We also explore metallicity and [α/Fe] distributions for each Galactic component and show that each cross-matched survey exhibits metallicity and [α/Fe] distribution functions that peak from higher to lower metallicity and lower to higher [α/Fe] from the thin disc to the halo. This catalogue will be useful to explore planet occurrence rates, among other things, with respect to kinematics, component membership, metallicity, or [α/Fe]. [ABSTRACT FROM AUTHOR]

Published
2020
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