Your search keyword '"Da Costa, Gary S."' showing total 91 results

1. Multiple populations and a CH star found in the 300S globular cluster stellar stream

Author

Usman, Sam A., Ji, Alexander P., Li, Ting S., Pace, Andrew B., Cullinane, Lara R., Da Costa, Gary S., Koposov, Sergey E., Lewis, Geraint F., Zucker, Daniel B., Belokurov, Vasily, Bland-Hawthorn, Joss, Ferguson, Peter S., Thidemann Hansen, Terese, Limberg, Guilherme, Martell, Sarah L., Mckenzie, Madeleine, Simon, Joshua D., Usman, Sam A., Ji, Alexander P., Li, Ting S., Pace, Andrew B., Cullinane, Lara R., Da Costa, Gary S., Koposov, Sergey E., Lewis, Geraint F., Zucker, Daniel B., Belokurov, Vasily, Bland-Hawthorn, Joss, Ferguson, Peter S., Thidemann Hansen, Terese, Limberg, Guilherme, Martell, Sarah L., Mckenzie, Madeleine, and Simon, Joshua D.

Abstract

Milky Way globular clusters (GCs) display chemical enrichment in a phenomenon called multiple stellar populations (MSPs). While the enrichment mechanism is not fully understood, there is a correlation between a cluster’s mass and the fraction of enriched stars found therein. However, present-day GC masses are often smaller than their masses at the time of formation due to dynamical mass-loss. In this work, we explore the relationship between mass and MSPs using the stellar stream 300S. We present the chemical abundances of eight red giant branch member stars in 300S with high-resolution spectroscopy from Magellan/MIKE. We identify one enriched star characteristic of MSPs and no detectable metallicity dispersion, confirming that the progenitor of 300S was a GC. The fraction of enriched stars (12.5 per cent) observed in our 300S stars is less than the 50 per cent of stars found enriched in Milky Way GCs of comparable present-day mass (∼104.5 M⊙⁠). We calculate the mass of 300S’s progenitor and compare it to the initial masses of intact GCs, finding that 300S aligns well with the trend between the system mass at formation and enrichment. 300S’s progenitor may straddle the critical mass threshold for the formation of MSPs and can therefore serve as a benchmark for the stellar enrichment process. Additionally, we identify a CH star, with high abundances of s-process elements, probably accreted from a binary companion. The rarity of such binaries in intact GCs may imply stellar streams permit the survival of binaries that would otherwise be disrupted.

Published

2024

2. SkyMapper Southern Survey: Data Release 4

Author

Onken, Christopher A., Wolf, Christian, Bessell, Michael S., Chang, Seo-Won, Luvaul, Lance C., Tonry, John L., White, Marc C., Da Costa, Gary S., Onken, Christopher A., Wolf, Christian, Bessell, Michael S., Chang, Seo-Won, Luvaul, Lance C., Tonry, John L., White, Marc C., and Da Costa, Gary S.

Abstract

We present the fourth data release (DR4) of the SkyMapper Southern Survey (SMSS), the last major step in our hemispheric survey with six optical filters: u, v, g, r, i, z. SMSS DR4 covers 26,000 sq.deg from over 400,000 images acquired by the 1.3m SkyMapper telescope between 2014-03 and 2021-09. The 6-band sky coverage extends from the South Celestial Pole to Dec = +16deg, with some images reaching Dec ~ +28deg. In contrast to previous DRs, we include all good-quality images from the facility taken during that time span, not only those explicitly taken for the public Survey. From the image dataset, we produce a catalogue of nearly 13 billion detections made from ~700 million unique astrophysical objects. The typical 10sigma depths for each field range between 18.5 and 20.5 mag, depending on the filter, but certain sky regions include longer exposures that reach as deep as 22 mag in some filters. As with previous SMSS catalogues, we have cross-matched with a host of other imaging and spectroscopic datasets to facilitate additional science outcomes. SMSS DR4 is now available to the worldwide astronomical community., Comment: 32 pages. Submitted to the Publications of the Astronomical Society of Australia

Published

2024

3. Multiple Populations and a CH Star Found in the 300S Globular Cluster Stellar Stream

Author

Usman, Sam A., Ji, Alexander P., Li, Ting S., Pace, Andrew B., Cullinane, Lara R., Da Costa, Gary S., Koposov, Sergey E., Lewis, Geraint F., Zucker, Daniel B., Belokurov, Vasily, Bland-Hawthorn, Joss, Ferguson, Peter S., Hansen, Terese T., Limberg, Guilherme, Martell, Sarah L., McKenzie, Madeleine, Simon, Joshua D., Usman, Sam A., Ji, Alexander P., Li, Ting S., Pace, Andrew B., Cullinane, Lara R., Da Costa, Gary S., Koposov, Sergey E., Lewis, Geraint F., Zucker, Daniel B., Belokurov, Vasily, Bland-Hawthorn, Joss, Ferguson, Peter S., Hansen, Terese T., Limberg, Guilherme, Martell, Sarah L., McKenzie, Madeleine, and Simon, Joshua D.

Abstract

Milky Way globular clusters (GCs) display chemical enrichment in a phenomenon called multiple stellar populations (MSPs). While the enrichment mechanism is not fully understood, there is a correlation between a cluster's mass and the fraction of enriched stars found therein. However, present-day GC masses are often smaller than their masses at the time of formation due to dynamical mass loss. In this work, we explore the relationship between mass and MSPs using the stellar stream 300S. We present the chemical abundances of eight red giant branch member stars in 300S with high-resolution spectroscopy from Magellan/MIKE. We identify one enriched star characteristic of MSPs and no detectable metallicity dispersion, confirming that the progenitor of 300S was a globular cluster. The fraction of enriched stars (12.5\%) observed in our 300S stars is less than the 50\% of stars found enriched in Milky Way GCs of comparable present-day mass ($\sim10^{4.5}$\msun). We calculate the mass of 300S's progenitor and compare it to the initial masses of intact GCs, finding that 300S aligns well with the trend between the system mass at formation and enrichment. 300S's progenitor may straddle the critical mass threshold for the formation of MSPs and can therefore serve as a benchmark for the stellar enrichment process. Additionally, we identify a CH star, with high abundances of \textit{s}-process elements, probably accreted from a binary companion. The rarity of such binaries in intact GCs may imply stellar streams permit the survival of binaries that would otherwise be disrupted., Comment: 15 pages, 7 tables, 8 figures. Accepted for publication in MNRAS

Published

2024

4. The GALAH Survey: A New Sample of Extremely Metal-Poor Stars Using A Machine Learning Classification Algorithm

Author

Hughes, Arvind C. N., Spitler, Lee R., Zucker, Daniel B., Nordlander, Thomas, Simpson, Jeffrey, Da Costa, Gary S., Ting, Yuan-Sen, Li, Chengyuan, Bland-Hawthorn, Joss, Buder, Sven, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Kos, Janez, Lewis, Geraint F., Lin, Jane, Lind, Karin, Martell, Sarah L., Schlesinger, Katharine J., Sharma, Sanjib, Zwitter, Tomaz, Collaboration, The GALAH, Hughes, Arvind C. N., Spitler, Lee R., Zucker, Daniel B., Nordlander, Thomas, Simpson, Jeffrey, Da Costa, Gary S., Ting, Yuan-Sen, Li, Chengyuan, Bland-Hawthorn, Joss, Buder, Sven, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Kos, Janez, Lewis, Geraint F., Lin, Jane, Lind, Karin, Martell, Sarah L., Schlesinger, Katharine J., Sharma, Sanjib, Zwitter, Tomaz, and Collaboration, The GALAH

Abstract

Extremely Metal-Poor (EMP) stars provide a valuable probe of early chemical enrichment in the Milky Way. Here we leverage a large sample of $\sim600,000$ high-resolution stellar spectra from the GALAH survey plus a machine learning algorithm to find 54 candidates with estimated [Fe/H]~$\leq$~-3.0, 6 of which have [Fe/H]~$\leq$~-3.5. Our sample includes $\sim 20 \%$ main sequence EMP candidates, unusually high for \emp surveys. We find the magnitude-limited metallicity distribution function of our sample is consistent with previous work that used more complex selection criteria. The method we present has significant potential for application to the next generation of massive stellar spectroscopic surveys, which will expand the available spectroscopic data well into the millions of stars., Comment: 27 pages, 20 figures, accepted for publication in ApJ, candidate table available at this https://github.com/arvhug/GALAH---TSNE_EMP

Published

2022

5. The GALAH Survey : A New Sample of Extremely Metal-poor Stars Using a Machine-learning Classification Algorithm

Author

Hughes, Arvind C. N., Spitler, Lee R., Zucker, Daniel B., Nordlander, Thomas, Simpson, Jeffrey, Da Costa, Gary S., Ting, Yuan-Sen, Li, Chengyuan, Bland-Hawthorn, Joss, Buder, Sven, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Kos, Janez, Lewis, Geraint F., Lin, Jane, Lind, Karin, Martell, Sarah L., Schlesinger, Katharine J., Sharma, Sanjib, Zwitter, Tomaž, Hughes, Arvind C. N., Spitler, Lee R., Zucker, Daniel B., Nordlander, Thomas, Simpson, Jeffrey, Da Costa, Gary S., Ting, Yuan-Sen, Li, Chengyuan, Bland-Hawthorn, Joss, Buder, Sven, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Kos, Janez, Lewis, Geraint F., Lin, Jane, Lind, Karin, Martell, Sarah L., Schlesinger, Katharine J., Sharma, Sanjib, and Zwitter, Tomaž

Abstract

Extremely metal-poor (EMP) stars provide a valuable probe of early chemical enrichment in the Milky Way. Here we leverage a large sample of ∼600,000 high-resolution stellar spectra from the GALAH survey plus a machine-learning algorithm to find 54 candidates with estimated [Fe/H] ≤−3.0, six of which have [Fe/H] ≤−3.5. Our sample includes ∼20% main-sequence EMP candidates, unusually high for EMP star surveys. We find the magnitude-limited metallicity distribution function of our sample is consistent with previous work that used more complex selection criteria. The method we present has significant potential for application to the next generation of massive stellar spectroscopic surveys, which will expand the available spectroscopic data well into the millions of stars.

Published

2022

6. $S^5$: Probing the Milky Way and Magellanic Clouds potentials with the 6-D map of the Orphan-Chenab stream

Author

Koposov, Sergey E., Erkal, Denis, Li, Ting S., Da Costa, Gary S., Cullinane, Lara R., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Pace, Andrew B., Shipp, Nora, Zucker, Daniel B., Bland-Hawthorn, Joss, Lilleengen, Sophia, Martell, Sarah L., Koposov, Sergey E., Erkal, Denis, Li, Ting S., Da Costa, Gary S., Cullinane, Lara R., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Pace, Andrew B., Shipp, Nora, Zucker, Daniel B., Bland-Hawthorn, Joss, Lilleengen, Sophia, and Martell, Sarah L.

Abstract

We present a 6-D map of the Orphan-Chenab (OC) stream by combining the data from Southern Stellar Stream Spectroscopic Survey ($S^5$) and {\it Gaia}. We reconstruct the proper motion, radial velocity, distance, on-sky track and stellar density along the stream with spline models. The stream has a total luminosity of $M_V=-8.2$ and metallicity of $\mathrm{[Fe/H]}=-1.9$, similar to classical Milky Way (MW) satellites like Draco. The stream shows drastic changes in its physical width varying from 200 pc to 1 kpc, but a constant line of sight velocity dispersion of 5 km/ss. Despite the large apparent variation in the stellar number density along the stream, the flow rate of stars along the stream is remarkably constant. We model the 6-D stream track by a Lagrange-point stripping method with a flexible MW potential in the presence of a moving extended Large Magellanic Cloud (LMC). This allows us to constrain the mass profile of the MW within the distance range 15.6 < r < 55.5 kpc, with the best measured enclosed mass of $(2.85\pm 0.1)\times 10^{11}\,M_\odot$ within 32.4 kpc. Our stream measurements are highly sensitive to the LMC mass profile with the most precise measurement of its enclosed mass made at 32.8 kpc, $(7.02\pm 0.9)\times10^{10}\, {\rm M}_\odot$. We also detect that the LMC dark matter halo extends to at least 53 kpc. The fitting of the OC stream allows us to constrain the past LMC trajectory and the degree of dynamical friction it experienced. We demonstrate that the stars in the OC stream show large energy and angular momentum spreads caused by LMC perturbation., Comment: accepted to MNRAS; data released with the paper is available on Zenodo https://doi.org/10.5281/zenodo.7222654

Published

2022

7. The GALAH Survey: A New Sample of Extremely Metal-Poor Stars Using A Machine Learning Classification Algorithm

Author

Hughes, Arvind C. N., Spitler, Lee R., Zucker, Daniel B., Nordlander, Thomas, Simpson, Jeffrey, Da Costa, Gary S., Ting, Yuan-Sen, Li, Chengyuan, Bland-Hawthorn, Joss, Buder, Sven, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Kos, Janez, Lewis, Geraint F., Lin, Jane, Lind, Karin, Martell, Sarah L., Schlesinger, Katharine J., Sharma, Sanjib, Zwitter, Tomaz, Collaboration, The GALAH, Hughes, Arvind C. N., Spitler, Lee R., Zucker, Daniel B., Nordlander, Thomas, Simpson, Jeffrey, Da Costa, Gary S., Ting, Yuan-Sen, Li, Chengyuan, Bland-Hawthorn, Joss, Buder, Sven, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Kos, Janez, Lewis, Geraint F., Lin, Jane, Lind, Karin, Martell, Sarah L., Schlesinger, Katharine J., Sharma, Sanjib, Zwitter, Tomaz, and Collaboration, The GALAH

Abstract

Extremely Metal-Poor (EMP) stars provide a valuable probe of early chemical enrichment in the Milky Way. Here we leverage a large sample of $\sim600,000$ high-resolution stellar spectra from the GALAH survey plus a machine learning algorithm to find 54 candidates with estimated [Fe/H]~$\leq$~-3.0, 6 of which have [Fe/H]~$\leq$~-3.5. Our sample includes $\sim 20 \%$ main sequence EMP candidates, unusually high for \emp surveys. We find the magnitude-limited metallicity distribution function of our sample is consistent with previous work that used more complex selection criteria. The method we present has significant potential for application to the next generation of massive stellar spectroscopic surveys, which will expand the available spectroscopic data well into the millions of stars., Comment: 27 pages, 20 figures, accepted for publication in ApJ, candidate table available at this https://github.com/arvhug/GALAH---TSNE_EMP

Published

2022

8. $S^5$: The Orbital and Chemical Properties of One Dozen Stellar Streams

Author

Li, Ting S., Ji, Alexander P., Pace, Andrew B., Erkal, Denis, Koposov, Sergey E., Shipp, Nora, Da Costa, Gary S., Cullinane, Lara R., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Zucker, Daniel B., Ferguson, Peter S., Martell, Sarah L., Bland-Hawthorn, Joss, Balbinot, Eduardo, Tavangar, Kiyan, Drlica-Wagner, Alex, De Silva, Gayandhi M., Simon, Joshua D., Collaboration, S5, Li, Ting S., Ji, Alexander P., Pace, Andrew B., Erkal, Denis, Koposov, Sergey E., Shipp, Nora, Da Costa, Gary S., Cullinane, Lara R., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Zucker, Daniel B., Ferguson, Peter S., Martell, Sarah L., Bland-Hawthorn, Joss, Balbinot, Eduardo, Tavangar, Kiyan, Drlica-Wagner, Alex, De Silva, Gayandhi M., Simon, Joshua D., and Collaboration, S5

Abstract

We report the kinematic, orbital, and chemical properties of 12 stellar streams with no evident progenitors, using line-of-sight velocities and metallicities from the Southern Stellar Stream Spectroscopic Survey ($S^5$), proper motions from $Gaia$ EDR3, and distances derived from distance tracers or the literature. This data set provides the largest homogeneously analyzed set of streams with full 6D kinematics and metallicities. All streams have heliocentric distances between ${\sim}10-50$ kpc. The velocity and metallicity dispersions show that half of the stream progenitors were disrupted dwarf galaxies (DGs), while the other half originated from disrupted globular clusters (GCs), hereafter referred to as DG and GC streams. Based on the mean metallicities of the streams and the mass-metallicity relation, the luminosities of the progenitors of the DG streams range between Carina and Ursa Major I ($-9.5\lesssim M_V\lesssim-5.5$). Four of the six GC streams have mean metallicities of [Fe/H]$< -2$, more metal-poor than typical Milky Way (MW) GCs at similar distances. Interestingly, the 300S and Jet GC streams are the only streams on retrograde orbits in our dozen stream sample. Finally, we compare the orbital properties of the streams with known DGs and GCs in the MW, finding several possible associations. Some streams appear to have been accreted with the recently discovered Gaia-Enceladus-Sausage system, and others suggest that GCs were formed in and accreted together with the progenitors of DG streams whose stellar masses are similar to Draco to Carina ($\sim10^5-10^6M_\odot$)., Comment: 24 pages, 8 Figures, 2 Tables. Accepted for publication in ApJ

Published

2021

9. Signature of a massive rotating metal-poor star imprinted in the Phoenix stellar stream

Author

Casey, Andrew R., Ji, Alexander P., Hansen, Terese T., Li, Ting S., Koposov, Sergey E., Da Costa, Gary S., Bland-Hawthorn, Joss, Cullinane, Lara, Erkal, Denis, Lewis, Geraint F., Kuehn, Kyler, Mackey, Dougal, Martell, Sarah L., Pace, Andrew B., Simpson, Jeffrey D., Zucker, Daniel B., Casey, Andrew R., Ji, Alexander P., Hansen, Terese T., Li, Ting S., Koposov, Sergey E., Da Costa, Gary S., Bland-Hawthorn, Joss, Cullinane, Lara, Erkal, Denis, Lewis, Geraint F., Kuehn, Kyler, Mackey, Dougal, Martell, Sarah L., Pace, Andrew B., Simpson, Jeffrey D., and Zucker, Daniel B.

Abstract

The Phoenix stellar stream has a low intrinsic dispersion in velocity and metallicity that implies the progenitor was probably a low mass globular cluster. In this work we use Magellan/MIKE high-dispersion spectroscopy of eight Phoenix stream red giants to confirm this scenario. In particular, we find negligible intrinsic scatter in metallicity ($\sigma(\mathrm{[Fe~II/H]}) = 0.04^{+0.11}_{-0.03}$) and a large peak-to-peak range in [Na/Fe] and [Al/Fe] abundance ratios, consistent with the light element abundance patterns seen in the most metal-poor globular clusters. However, unlike any other globular cluster, we also find an intrinsic spread in [Sr II/Fe] spanning $\sim$1 dex, while [Ba II/Fe] shows nearly no intrinsic spread ($\sigma(\mathrm{[Ba~II/H]}) = {0.03}^{+0.10}_{-0.02}$). This abundance signature is best interpreted as slow neutron capture element production from a massive fast-rotating metal-poor star ($15-20 \mathrm{M}_\odot$, $v_\mathrm{ini}/v_\mathrm{crit} = 0.4$, $[\mathrm{Fe/H}] = -3.8$). The low inferred cluster mass suggests the system would have been unable to retain supernovae ejecta, implying that any massive fast-rotating metal-poor star that enriched the interstellar medium must have formed and evolved before the globular cluster formed. Neutron capture element production from asymptotic giant branch stars or magneto-rotational instabilities in core-collapse supernovae provide poor fits to the observations. We also report one Phoenix stream star to be a lithium-rich giant ($A(\mathrm{Li}) = 3.1 \pm 0.1$). At $[\mathrm{Fe/H}] = -2.93$ it is among the most metal-poor lithium-rich giants known., Comment: Accepted to ApJ 2021-07-09

Published

2021

10. Measuring the Mass of the Large Magellanic Cloud with Stellar Streams Observed by ${S}^5$

Author

Shipp, Nora, Erkal, Denis, Drlica-Wagner, Alex, Li, Ting S., Pace, Andrew B., Koposov, Sergey E., Cullinane, Lara R., Da Costa, Gary S., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Ferguson, Peter S., Lilleengen, Sophia, Collaboration, S5, Shipp, Nora, Erkal, Denis, Drlica-Wagner, Alex, Li, Ting S., Pace, Andrew B., Koposov, Sergey E., Cullinane, Lara R., Da Costa, Gary S., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Ferguson, Peter S., Lilleengen, Sophia, and Collaboration, S5

Abstract

Stellar streams are excellent probes of the underlying gravitational potential in which they evolve. In this work, we fit dynamical models to five streams in the Southern Galactic hemisphere, combining observations from the Southern Stellar Stream Spectroscopic Survey (${S}^5$), Gaia EDR3, and the Dark Energy Survey (DES), to measure the mass of the Large Magellanic Cloud (LMC). With an ensemble of streams, we find a mass of the LMC ranging from 14 to $19 \times 10^{10}\ \mathrm{M}_{\odot}$, probed over a range of closest approach times and distances. With the most constraining stream (Orphan-Chenab), we measure an LMC mass of $18.8^{+ 3.5}_{- 4.0} \times 10^{10}\ \mathrm{M}_{\odot}$, probed at a closest approach time of 310 Myr and a closest approach distance of 25.4 kpc. This mass is compatible with previous measurements, showing that a consistent picture is emerging of the LMC's influence on structures in the Milky Way. Using this sample of streams, we find that the LMC's effect depends on the relative orientation of the stream and LMC at their point of closest approach. To better understand this, we present a simple model based on the impulse approximation and we show that the LMC's effect depends both on the magnitude of the velocity kick imparted to the stream and the direction of this kick., Comment: 23 pages, 10 figures, submitted to ApJ

Published

2021

11. Kinematics of Antlia 2 and Crater 2 from The Southern Stellar Stream Spectroscopic Survey (S5)

Author

Ji, Alexander P., Koposov, Sergey E., Li, Ting S., Erkal, Denis, Pace, Andrew B., Simon, Joshua D., Belokurov, Vasily, Cullinane, Lara R., Da Costa, Gary S., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Shipp, Nora, Simpson, Jeffrey D., Zucker, Daniel B., Hansen, Terese T., Bland-Hawthorn, Joss, Collaboration, S5, Ji, Alexander P., Koposov, Sergey E., Li, Ting S., Erkal, Denis, Pace, Andrew B., Simon, Joshua D., Belokurov, Vasily, Cullinane, Lara R., Da Costa, Gary S., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Shipp, Nora, Simpson, Jeffrey D., Zucker, Daniel B., Hansen, Terese T., Bland-Hawthorn, Joss, and Collaboration, S5

Abstract

We present new spectroscopic observations of the diffuse Milky Way satellite galaxies Antlia 2 and Crater 2, taken as part of the Southern Stellar Stream Spectroscopic Survey (S5). The new observations approximately double the number of confirmed member stars in each galaxy and more than double the spatial extent of spectroscopic observations in Antlia 2. A full kinematic analysis, including Gaia EDR3 proper motions, detects a clear velocity gradient in Antlia 2 and a tentative velocity gradient in Crater 2. The velocity gradient magnitudes and directions are consistent with particle stream simulations of tidal disruption. Furthermore, the orbit and kinematics of Antlia 2 require a model that includes the reflex motion of the Milky Way induced by the Large Magellanic Cloud. We also find that Antlia 2's metallicity was previously overestimated, so it lies on the empirical luminosity-metallicity relation and is likely only now experiencing substantial stellar mass loss. Current dynamical models of Antlia 2 require it to have lost over 90% of its stars to tides, in tension with the low stellar mass loss implied by the updated metallicity. Overall, the new kinematic measurements support a tidal disruption scenario for the origin of these large and extended dwarf spheroidal galaxies., Comment: 23 pages (+appendix), 11 figures, accepted to ApJ. Updated to accepted version (1 new figure, minor changes to text) Video of Antlia 2 tidal disruption here: https://www.youtube.com/watch?v=wvt-Q4kRq90

Published

2021

12. The GALAH plus survey : Third data release

Author

Buder, Sven, Sharma, Sanjib, Kos, Janez, Amarsi, Anish, Nordlander, Thomas, Lind, Karin, Martell, Sarah L., Asplund, Martin, Bland-Hawthorn, Joss, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Lewis, Geraint F., Lin, Jane, Schlesinger, Katharine J., Simpson, Jeffrey D., Stello, Dennis, Zucker, Daniel B., Zwitter, Tomaz, Beeson, Kevin L., Buck, Tobias, Casagrande, Luca, Clark, Jake T., Cotar, Klemen, Da Costa, Gary S., de Grijs, Richard, Feuillet, Diane, Horner, Jonathan, Kafle, Prajwal R., Khanna, Shourya, Kobayashi, Chiaki, Liu, Fan, Montet, Benjamin T., Nandakumar, Govind, Nataf, David M., Ness, Melissa K., Spina, Lorenzo, Tepper-Garcia, Thor, Ting, Yuan-Sen, Traven, Gregor, Vogrincic, Rok, Wittenmyer, Robert A., Wyse, Rosemary F. G., Zerjal, Marusa, Buder, Sven, Sharma, Sanjib, Kos, Janez, Amarsi, Anish, Nordlander, Thomas, Lind, Karin, Martell, Sarah L., Asplund, Martin, Bland-Hawthorn, Joss, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Lewis, Geraint F., Lin, Jane, Schlesinger, Katharine J., Simpson, Jeffrey D., Stello, Dennis, Zucker, Daniel B., Zwitter, Tomaz, Beeson, Kevin L., Buck, Tobias, Casagrande, Luca, Clark, Jake T., Cotar, Klemen, Da Costa, Gary S., de Grijs, Richard, Feuillet, Diane, Horner, Jonathan, Kafle, Prajwal R., Khanna, Shourya, Kobayashi, Chiaki, Liu, Fan, Montet, Benjamin T., Nandakumar, Govind, Nataf, David M., Ness, Melissa K., Spina, Lorenzo, Tepper-Garcia, Thor, Ting, Yuan-Sen, Traven, Gregor, Vogrincic, Rok, Wittenmyer, Robert A., Wyse, Rosemary F. G., and Zerjal, Marusa

Abstract

The ensemble of chemical element abundance measurements for stars, along with precision distances and orbit properties, provides high-dimensional data to study the evolution of the Milky Way. With this third data release of the Galactic Archaeology with HERMES (GALAH) survey, we publish 678 423 spectra for 588 571 mostly nearby stars (81.2 per cent of stars are within <2 kpc), observed with the HERMES spectrograph at the Anglo-Australian Telescope. This release (hereafter GALAH+ DR3) includes all observations from GALAH Phase 1 (bright, main, and faint survey, 70 per cent), K2-HERMES (17 per cent), TESS-HERMES (5 per cent), and a subset of ancillary observations (8 per cent) including the bulge and >75 stellar clusters. We derive stellar parameters T-eff, logg, [Fe/H], v(mic), v(broad), and v(rad) using our modified version of the spectrum synthesis code Spectroscopy Made Easy (SME) and 1D MARCS model atmospheres. We break spectroscopic degeneracies in our spectrum analysis with astrometry from Gaia DR2 and photometry from 2MASS. We report abundance ratios [X/Fe] for 30 different elements (11 of which are based on non-LTE computations) covering five nucleosynthetic pathways. We describe validations for accuracy and precision, flagging of peculiar stars/measurements and recommendations for using our results. Our catalogue comprises 65 per cent dwarfs, 34 per cent giants, and 1 per cent other/unclassified stars. Based on unflagged chemical composition and age, we find 62 per cent young low-alpha, 9 per cent young high-alpha, 27 per cent old high-alpha, and 2 per cent stars with [Fe/H] <= -1. Based on kinematics, 4 per cent are halo stars. Several Value-Added-Catalogues, including stellar ages and dynamics, updated after Gaia eDR3, accompany this release and allow chrono-chemodynamic analyses, as we showcase.

Published

2021

13. $S^5$: The Orbital and Chemical Properties of One Dozen Stellar Streams

Author

Li, Ting S., Ji, Alexander P., Pace, Andrew B., Erkal, Denis, Koposov, Sergey E., Shipp, Nora, Da Costa, Gary S., Cullinane, Lara R., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Zucker, Daniel B., Ferguson, Peter S., Martell, Sarah L., Bland-Hawthorn, Joss, Balbinot, Eduardo, Tavangar, Kiyan, Drlica-Wagner, Alex, De Silva, Gayandhi M., Simon, Joshua D., Collaboration, S5, Li, Ting S., Ji, Alexander P., Pace, Andrew B., Erkal, Denis, Koposov, Sergey E., Shipp, Nora, Da Costa, Gary S., Cullinane, Lara R., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Zucker, Daniel B., Ferguson, Peter S., Martell, Sarah L., Bland-Hawthorn, Joss, Balbinot, Eduardo, Tavangar, Kiyan, Drlica-Wagner, Alex, De Silva, Gayandhi M., Simon, Joshua D., and Collaboration, S5

Abstract

We report the kinematic, orbital, and chemical properties of 12 stellar streams with no evident progenitors, using line-of-sight velocities and metallicities from the Southern Stellar Stream Spectroscopic Survey ($S^5$), proper motions from $Gaia$ EDR3, and distances derived from distance tracers or the literature. This data set provides the largest homogeneously analyzed set of streams with full 6D kinematics and metallicities. All streams have heliocentric distances between ${\sim}10-50$ kpc. The velocity and metallicity dispersions show that half of the stream progenitors were disrupted dwarf galaxies (DGs), while the other half originated from disrupted globular clusters (GCs), hereafter referred to as DG and GC streams. Based on the mean metallicities of the streams and the mass-metallicity relation, the luminosities of the progenitors of the DG streams range between Carina and Ursa Major I ($-9.5\lesssim M_V\lesssim-5.5$). Four of the six GC streams have mean metallicities of [Fe/H]$< -2$, more metal-poor than typical Milky Way (MW) GCs at similar distances. Interestingly, the 300S and Jet GC streams are the only streams on retrograde orbits in our dozen stream sample. Finally, we compare the orbital properties of the streams with known DGs and GCs in the MW, finding several possible associations. Some streams appear to have been accreted with the recently discovered Gaia-Enceladus-Sausage system, and others suggest that GCs were formed in and accreted together with the progenitors of DG streams whose stellar masses are similar to Draco to Carina ($\sim10^5-10^6M_\odot$)., Comment: 24 pages, 8 Figures, 2 Tables. Accepted for publication in ApJ

Published

2021

14. Signature of a massive rotating metal-poor star imprinted in the Phoenix stellar stream

Author

Casey, Andrew R., Ji, Alexander P., Hansen, Terese T., Li, Ting S., Koposov, Sergey E., Da Costa, Gary S., Bland-Hawthorn, Joss, Cullinane, Lara, Erkal, Denis, Lewis, Geraint F., Kuehn, Kyler, Mackey, Dougal, Martell, Sarah L., Pace, Andrew B., Simpson, Jeffrey D., Zucker, Daniel B., Casey, Andrew R., Ji, Alexander P., Hansen, Terese T., Li, Ting S., Koposov, Sergey E., Da Costa, Gary S., Bland-Hawthorn, Joss, Cullinane, Lara, Erkal, Denis, Lewis, Geraint F., Kuehn, Kyler, Mackey, Dougal, Martell, Sarah L., Pace, Andrew B., Simpson, Jeffrey D., and Zucker, Daniel B.

Abstract

The Phoenix stellar stream has a low intrinsic dispersion in velocity and metallicity that implies the progenitor was probably a low mass globular cluster. In this work we use Magellan/MIKE high-dispersion spectroscopy of eight Phoenix stream red giants to confirm this scenario. In particular, we find negligible intrinsic scatter in metallicity ($\sigma(\mathrm{[Fe~II/H]}) = 0.04^{+0.11}_{-0.03}$) and a large peak-to-peak range in [Na/Fe] and [Al/Fe] abundance ratios, consistent with the light element abundance patterns seen in the most metal-poor globular clusters. However, unlike any other globular cluster, we also find an intrinsic spread in [Sr II/Fe] spanning $\sim$1 dex, while [Ba II/Fe] shows nearly no intrinsic spread ($\sigma(\mathrm{[Ba~II/H]}) = {0.03}^{+0.10}_{-0.02}$). This abundance signature is best interpreted as slow neutron capture element production from a massive fast-rotating metal-poor star ($15-20 \mathrm{M}_\odot$, $v_\mathrm{ini}/v_\mathrm{crit} = 0.4$, $[\mathrm{Fe/H}] = -3.8$). The low inferred cluster mass suggests the system would have been unable to retain supernovae ejecta, implying that any massive fast-rotating metal-poor star that enriched the interstellar medium must have formed and evolved before the globular cluster formed. Neutron capture element production from asymptotic giant branch stars or magneto-rotational instabilities in core-collapse supernovae provide poor fits to the observations. We also report one Phoenix stream star to be a lithium-rich giant ($A(\mathrm{Li}) = 3.1 \pm 0.1$). At $[\mathrm{Fe/H}] = -2.93$ it is among the most metal-poor lithium-rich giants known., Comment: Accepted to ApJ 2021-07-09

Published

2021

15. Measuring the Mass of the Large Magellanic Cloud with Stellar Streams Observed by ${S}^5$

Author

Shipp, Nora, Erkal, Denis, Drlica-Wagner, Alex, Li, Ting S., Pace, Andrew B., Koposov, Sergey E., Cullinane, Lara R., Da Costa, Gary S., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Ferguson, Peter S., Lilleengen, Sophia, Collaboration, S5, Shipp, Nora, Erkal, Denis, Drlica-Wagner, Alex, Li, Ting S., Pace, Andrew B., Koposov, Sergey E., Cullinane, Lara R., Da Costa, Gary S., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Ferguson, Peter S., Lilleengen, Sophia, and Collaboration, S5

Abstract

Stellar streams are excellent probes of the underlying gravitational potential in which they evolve. In this work, we fit dynamical models to five streams in the Southern Galactic hemisphere, combining observations from the Southern Stellar Stream Spectroscopic Survey (${S}^5$), Gaia EDR3, and the Dark Energy Survey (DES), to measure the mass of the Large Magellanic Cloud (LMC). With an ensemble of streams, we find a mass of the LMC ranging from 14 to $19 \times 10^{10}\ \mathrm{M}_{\odot}$, probed over a range of closest approach times and distances. With the most constraining stream (Orphan-Chenab), we measure an LMC mass of $18.8^{+ 3.5}_{- 4.0} \times 10^{10}\ \mathrm{M}_{\odot}$, probed at a closest approach time of 310 Myr and a closest approach distance of 25.4 kpc. This mass is compatible with previous measurements, showing that a consistent picture is emerging of the LMC's influence on structures in the Milky Way. Using this sample of streams, we find that the LMC's effect depends on the relative orientation of the stream and LMC at their point of closest approach. To better understand this, we present a simple model based on the impulse approximation and we show that the LMC's effect depends both on the magnitude of the velocity kick imparted to the stream and the direction of this kick., Comment: 23 pages, 10 figures, submitted to ApJ

Published

2021

16. Kinematics of Antlia 2 and Crater 2 from The Southern Stellar Stream Spectroscopic Survey (S5)

Author

Ji, Alexander P., Koposov, Sergey E., Li, Ting S., Erkal, Denis, Pace, Andrew B., Simon, Joshua D., Belokurov, Vasily, Cullinane, Lara R., Da Costa, Gary S., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Shipp, Nora, Simpson, Jeffrey D., Zucker, Daniel B., Hansen, Terese T., Bland-Hawthorn, Joss, Collaboration, S5, Ji, Alexander P., Koposov, Sergey E., Li, Ting S., Erkal, Denis, Pace, Andrew B., Simon, Joshua D., Belokurov, Vasily, Cullinane, Lara R., Da Costa, Gary S., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Shipp, Nora, Simpson, Jeffrey D., Zucker, Daniel B., Hansen, Terese T., Bland-Hawthorn, Joss, and Collaboration, S5

Abstract

We present new spectroscopic observations of the diffuse Milky Way satellite galaxies Antlia 2 and Crater 2, taken as part of the Southern Stellar Stream Spectroscopic Survey (S5). The new observations approximately double the number of confirmed member stars in each galaxy and more than double the spatial extent of spectroscopic observations in Antlia 2. A full kinematic analysis, including Gaia EDR3 proper motions, detects a clear velocity gradient in Antlia 2 and a tentative velocity gradient in Crater 2. The velocity gradient magnitudes and directions are consistent with particle stream simulations of tidal disruption. Furthermore, the orbit and kinematics of Antlia 2 require a model that includes the reflex motion of the Milky Way induced by the Large Magellanic Cloud. We also find that Antlia 2's metallicity was previously overestimated, so it lies on the empirical luminosity-metallicity relation and is likely only now experiencing substantial stellar mass loss. Current dynamical models of Antlia 2 require it to have lost over 90% of its stars to tides, in tension with the low stellar mass loss implied by the updated metallicity. Overall, the new kinematic measurements support a tidal disruption scenario for the origin of these large and extended dwarf spheroidal galaxies., Comment: 23 pages (+appendix), 11 figures, accepted to ApJ. Updated to accepted version (1 new figure, minor changes to text) Video of Antlia 2 tidal disruption here: https://www.youtube.com/watch?v=wvt-Q4kRq90

Published

2021

17. Broken into Pieces: ATLAS and Aliqa Uma as One Single Stream

Author

Li, Ting S., Koposov, Sergey E., Erkal, Denis, Ji, Alexander P., Shipp, Nora, Pace, Andrew B., Hilmi, Tariq, Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Cullinane, Lara R., Da Costa, Gary S., Drlica-Wagner, Alex, Hattori, Kohei, Martell, Sarah L., Sharma, Sanjib, Li, Ting S., Koposov, Sergey E., Erkal, Denis, Ji, Alexander P., Shipp, Nora, Pace, Andrew B., Hilmi, Tariq, Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Cullinane, Lara R., Da Costa, Gary S., Drlica-Wagner, Alex, Hattori, Kohei, Martell, Sarah L., and Sharma, Sanjib

Abstract

We present the first spectroscopic measurements of the ATLAS and Aliqa Uma streams from the Southern Stellar Stream Spectroscopic Survey ($S^5$), in combination with the photometric data from the Dark Energy Survey and astrometric data from $Gaia$. From the coherence of spectroscopic members in radial velocity and proper motion, we find out that these two systems are extremely likely to be one stream with discontinuity in morphology and density on the sky (the "kink" feature). We refer to this entire stream as the ATLAS-Aliqa Uma stream, or the AAU stream. We perform a comprehensive exploration of the effect of baryonic substructures and find that only an encounter with the Sagittarius dwarf $\sim 0.5$ Gyr ago can create a feature similar to the observed "kink". In addition, we also identify two gaps in the ATLAS component associated with the broadening in the stream width (the "broadening" feature). These gaps have likely been created by small mass perturbers, such as dark matter halos, as the AAU stream is the most distant cold stream known with severe variations in both the stream surface density and the stream track on the sky. With the stream track, stream distance and kinematic information, we determine the orbit of the AAU stream and find that it has been affected by the Large Magellanic Cloud, resulting in a misalignment between the proper motion and stream track. Together with the Orphan-Chenab Stream, AAU is the second stream pair that has been found to be a single stream separated into two segments by external perturbation., Comment: 33 pages, 22 figures (including 1 movie), 3 tables. Accepted for publication in ApJ

Published

2020

18. The closest extremely low-mass white dwarf to the Sun

Author

Kawka, Adela, Simpson, Jeffrey D., Vennes, Stephane, Bessell, Michael S., Da Costa, Gary S., Marino, Anna F., Murphy, Simon J., Kawka, Adela, Simpson, Jeffrey D., Vennes, Stephane, Bessell, Michael S., Da Costa, Gary S., Marino, Anna F., and Murphy, Simon J.

Abstract

We present the orbit and properties of 2MASS J050051.85-093054.9, establishing it as the closest (d ~ 71 pc) extremely low mass white dwarf to the Sun. We find that this star is hydrogen-rich with Teff ~ 10 500 K, log g ~ 5.9, and, following evolutionary models, has a mass of ~ 0.17 solar masses. Independent analysis of radial velocity and TESS photometric time series reveals an orbital period of ~ 9.5 h. Its high velocity amplitude (K ~ 144 km/s) produces a measurable Doppler beaming effect in the TESS light curve with an amplitude of 1 mmag. The unseen companion is most likely a faint white dwarf. J0500-0930 belongs to a class of post-common envelope systems that will most likely merge through unstable mass transfer and in specific circumstances lead to Type Ia supernova explosions., Comment: Accepted for publication in MNRAS Letters

Published

2020

19. Milky Way Tomography with the SkyMapper Southern Survey. II. Photometric Re-calibration of SMSS DR2

Author

Huang, Yang, Yuan, Haibo, Li, Chengyuan, Wolf, Christian, Onken, Christopher A., Beers, Timothy C., Casagrande, Luca, Mackey, Dougal, Da Costa, Gary S., Bland-Hawthorn, Joss, Stello, Dennis, Nordlander, Thomas, Ting, Yuan-Sen, Buder, Sven, Sharma, Sanjib, Liu, Xiaowei, Huang, Yang, Yuan, Haibo, Li, Chengyuan, Wolf, Christian, Onken, Christopher A., Beers, Timothy C., Casagrande, Luca, Mackey, Dougal, Da Costa, Gary S., Bland-Hawthorn, Joss, Stello, Dennis, Nordlander, Thomas, Ting, Yuan-Sen, Buder, Sven, Sharma, Sanjib, and Liu, Xiaowei

Abstract

We apply the spectroscopy-based stellar-color regression (SCR) method to perform an accurate photometric re-calibration of the second data release from the SkyMapper Southern Survey (SMSS DR2). From comparison with a sample of over 200,000 dwarf stars with stellar atmospheric parameters taken from GALAH+ DR3 and with accurate, homogeneous photometry from $Gaia$ DR2, zero-point offsets are detected in the original photometric catalog of SMSS DR2, in particular for the gravity- and metallicity-sensitive $uv$ bands. For $uv$ bands, the zero-point offsets are close to zero at very low extinction, and then steadily increase with $E (B - V)$, reaching as large as 0.174 and 0.134 mag respectively, at $E (B - V) \sim 0.5$ mag. These offsets largely arise from the adopted dust term in the transformations used by SMSS DR2 to construct photometric calibrators from the ATLAS reference catalog. For the $gr$ bands, the zero-point offsets exhibit negligible variations with SFD $E(B - V )$, due to their tiny coefficients on the dust term in the transformation. Our study also reveals small, but significant, spatial variations of the zero-point offsets in all $uvgr$ bands. External checks using Str\"omgren photometry, WD loci and the SDSS Stripe 82 standard-star catalog independently confirm the zero-points found by our revised SCR method., Comment: 16 pages, 13 figures, 5 tables, accepted for publication in ApJ; we also provide the routines and scripts on GitHub (github.com/comhy/SMSS-DR2-ZP-corrections) for the corrections of the zero-points of SMSS DR2/3 photometry

Published

2020

20. The GALAH+ Survey: Third Data Release

Author

Buder, Sven, Sharma, Sanjib, Kos, Janez, Amarsi, Anish M., Nordlander, Thomas, Lind, Karin, Martell, Sarah L., Asplund, Martin, Bland-Hawthorn, Joss, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Lewis, Geraint F., Lin, Jane, Schlesinger, Katharine J., Simpson, Jeffrey D., Stello, Dennis, Zucker, Daniel B., Zwitter, Tomaz, Beeson, Kevin L., Buck, Tobias, Casagrande, Luca, Clark, Jake T., Cotar, Klemen, Da Costa, Gary S., de Grijs, Richard, Feuillet, Diane, Horner, Jonathan, Kafle, Prajwal R., Khanna, Shourya, Kobayashi, Chiaki, Liu, Fan, Montet, Benjamin T., Nandakumar, Govind, Nataf, David M., Ness, Melissa K., Spina, Lorenzo, Tepper-Garcia, Thor, Ting, Yuan-Sen, Traven, Gregor, Vogrincic, Rok, Wittenmyer, Robert A., Wyse, Rosemary F. G., Zerjal, Marusa, collaboration, the GALAH, Buder, Sven, Sharma, Sanjib, Kos, Janez, Amarsi, Anish M., Nordlander, Thomas, Lind, Karin, Martell, Sarah L., Asplund, Martin, Bland-Hawthorn, Joss, Casey, Andrew R., De Silva, Gayandhi M., D'Orazi, Valentina, Freeman, Ken C., Hayden, Michael R., Lewis, Geraint F., Lin, Jane, Schlesinger, Katharine J., Simpson, Jeffrey D., Stello, Dennis, Zucker, Daniel B., Zwitter, Tomaz, Beeson, Kevin L., Buck, Tobias, Casagrande, Luca, Clark, Jake T., Cotar, Klemen, Da Costa, Gary S., de Grijs, Richard, Feuillet, Diane, Horner, Jonathan, Kafle, Prajwal R., Khanna, Shourya, Kobayashi, Chiaki, Liu, Fan, Montet, Benjamin T., Nandakumar, Govind, Nataf, David M., Ness, Melissa K., Spina, Lorenzo, Tepper-Garcia, Thor, Ting, Yuan-Sen, Traven, Gregor, Vogrincic, Rok, Wittenmyer, Robert A., Wyse, Rosemary F. G., Zerjal, Marusa, and collaboration, the GALAH

Abstract

The ensemble of chemical element abundance measurements for stars, along with precision distances and orbit properties, provides high-dimensional data to study the evolution of the Milky Way. With this third data release of the Galactic Archaeology with HERMES (GALAH) survey, we publish 678 423 spectra for 588 571 mostly nearby stars (81.2% of stars are within <2 kpc), observed with the HERMES spectrograph at the Anglo-Australian Telescope. This release (hereafter GALAH+ DR3) includes all observations from GALAH Phase 1 (bright, main, and faint survey, 70%), K2-HERMES (17%), TESS-HERMES (5%), and a subset of ancillary observations (8%) including the bulge and >75 stellar clusters. We derive stellar parameters $T_\text{eff}$, $\log g$, [Fe/H], $v_\text{mic}$, $v_\text{broad}$ & $v_\text{rad}$ using our modified version of the spectrum synthesis code Spectroscopy Made Easy (SME) and 1D MARCS model atmospheres. We break spectroscopic degeneracies in our spectrum analysis with astrometry from $Gaia$ DR2 and photometry from 2MASS. We report abundance ratios [X/Fe] for 30 different elements (11 of which are based on non-LTE computations) covering five nucleosynthetic pathways. We describe validations for accuracy and precision, flagging of peculiar stars/measurements and recommendations for using our results. Our catalogue comprises 65% dwarfs, 34% giants, and 1% other/unclassified stars. Based on unflagged chemical composition and age, we find 62% young low-$\alpha$, 9% young high-$\alpha$, 27% old high-$\alpha$, and 2% stars with $\mathrm{[Fe/H]} \leq -1$. Based on kinematics, 4% are halo stars. Several Value-Added-Catalogues, including stellar ages and dynamics, updated after $Gaia$ eDR3, accompany this release and allow chrono-chemodynamic analyses, as we showcase., Comment: 48 pages, 27 figures, 5 pages appendix, accepted for publication in MNRAS, comments welcome, GALAH+ DR3 can be found at https://docs.datacentral.org.au/galah/dr3/overview/, Catalogs can be downloaded from https://cloud.datacentral.org.au/teamdata/GALAH/public/GALAH_DR3

Published

2020

21. SkyMapper Southern Survey: Second Data Release (DR2)

Author

Onken, Christopher A., Wolf, Christian, Bessell, Michael S., Chang, Seo-Won, Da Costa, Gary S., Luvaul, Lance C., Mackey, Dougal, Schmidt, Brian P., Shao, Li, Onken, Christopher A., Wolf, Christian, Bessell, Michael S., Chang, Seo-Won, Da Costa, Gary S., Luvaul, Lance C., Mackey, Dougal, Schmidt, Brian P., and Shao, Li

Abstract

We present the second data release (DR2) of the SkyMapper Southern Survey, a hemispheric survey carried out with the SkyMapper Telescope at Siding Spring Observatory in Australia, using six optical filters: $u,v,g,r,i,z$. DR2 is the first release to go beyond the $\sim$18mag (10${\sigma}$) limit of the Shallow Survey released in DR1, and includes portions of the sky at full survey depth that reach >21mag in $g$ and $r$ filters. The DR2 photometry has a precision as measured by internal reproducibility of 1% in $u$ and $v$, and 0.7% in $griz$. More than 21 000 deg$^2$ have data in some filters (at either Shallow or Main Survey depth) and over 7 000 deg$^2$ have deep Main Survey coverage in all six filters. Finally, about 18 000 deg$^2$ have Main Survey data in $i$ and $z$ filters, albeit not yet at full depth. The release contains over 120 000 images, as well as catalogues with over 500 million unique astrophysical objects and nearly 5 billion individual detections. It also contains cross-matches with a range of external catalogues such as Gaia DR2, Pan-STARRS1 DR1, GALEX GUVcat, 2MASS, and AllWISE, as well as spectroscopic surveys such as 2MRS, GALAH, 6dFGS, and 2dFLenS., Comment: 21 pages, 17 figures. As of 25 Aug 2020, DR2 is available to the world at http://skymapper.anu.edu.au

Published

2020

22. The Southern Stellar Stream Spectroscopic Survey (S5): Chemical Abundances of Seven Stellar Streams

Author

Ji, Alexander P., Li, Ting S., Hansen, Terese T., Casey, Andrew R., Koposov, Sergey E., Pace, Andrew B., Mackey, Dougal, Lewis, Geraint F., Simpson, Jeffrey D., Bland-Hawthorn, Joss, Cullinane, Lara R., Da Costa, Gary. S., Hattori, Kohei, Martell, Sarah L., Kuehn, Kyler, Erkal, Denis, Shipp, Nora, Wan, Zhen, Zucker, Daniel B., Ji, Alexander P., Li, Ting S., Hansen, Terese T., Casey, Andrew R., Koposov, Sergey E., Pace, Andrew B., Mackey, Dougal, Lewis, Geraint F., Simpson, Jeffrey D., Bland-Hawthorn, Joss, Cullinane, Lara R., Da Costa, Gary. S., Hattori, Kohei, Martell, Sarah L., Kuehn, Kyler, Erkal, Denis, Shipp, Nora, Wan, Zhen, and Zucker, Daniel B.

Abstract

We present high-resolution Magellan/MIKE spectroscopy of 42 red giant stars in seven stellar streams confirmed by the Southern Stellar Stream Spectroscopic Survey (S5): ATLAS, Aliqa Uma, Chenab, Elqui, Indus, Jhelum, and Phoenix. Abundances of 30 elements have been derived from over 10,000 individual line measurements or upper limits using photometric stellar parameters and a standard LTE analysis. This is currently the most extensive set of element abundances for stars in stellar streams. Three streams (ATLAS, Aliqa Uma, and Phoenix) are disrupted metal-poor globular clusters, although only weak evidence is seen for the light element anticorrelations commonly observed in globular clusters. Four streams (Chenab, Elqui, Indus, and Jhelum) are disrupted dwarf galaxies, and their stars display abundance signatures that suggest progenitors with stellar masses ranging from $10^6-10^7 M_\odot$. Extensive description is provided for the analysis methods, including the derivation of a new method for including the effect of stellar parameter correlations on each star's abundance and uncertainty. This paper includes data gathered with the 6.5 meter Magellan Telescopes located at Las Campanas Observatory, Chile., Comment: Accepted to AJ. 39 pages, 13 figures, 7 tables

Published

2020

23. The tidal remnant of an unusually metal-poor globular cluster

Author

Wan, Zhen, Lewis, Geraint F., Li, Ting S., Simpson, Jeffrey D., Martell, Sarah L., Zucker, Daniel B., Mould, Jeremy R., Erkal, Denis, Pace, Andrew B., Mackey, Dougal, Ji, Alexander P., Koposov, Sergey E., Kuehn, Kyler, Shipp, Nora, Balbinot, Eduardo, Bland-Hawthorn, Joss, Casey, Andrew R., Da Costa, Gary S., Kafle, Prajwal, Sharma, Sanjib, De Silva, Gayandhi M., Wan, Zhen, Lewis, Geraint F., Li, Ting S., Simpson, Jeffrey D., Martell, Sarah L., Zucker, Daniel B., Mould, Jeremy R., Erkal, Denis, Pace, Andrew B., Mackey, Dougal, Ji, Alexander P., Koposov, Sergey E., Kuehn, Kyler, Shipp, Nora, Balbinot, Eduardo, Bland-Hawthorn, Joss, Casey, Andrew R., Da Costa, Gary S., Kafle, Prajwal, Sharma, Sanjib, and De Silva, Gayandhi M.

Abstract

Globular clusters are some of the oldest bound stellar structures observed in the Universe. They are ubiquitous in large galaxies and are believed to trace intense star formation events and the hierarchical build-up of structure. Observations of globular clusters in the Milky Way, and a wide variety of other galaxies, have found evidence for a `metallicity floor', whereby no globular clusters are found with chemical (`metal') abundances below approximately 0.3 to 0.4 per cent of that of the Sun. The existence of this metallicity floor may reflect a minimum mass and a maximum redshift for surviving globular clusters to form, both critical components for understanding the build-up of mass in the universe. Here we report measurements from the Southern Stellar Streams Spectroscopic Survey of the spatially thin, dynamically cold Phoenix stellar stream in the halo of the Milky Way. The properties of the Phoenix stream are consistent with it being the tidally disrupted remains of a globular cluster. However, its metal abundance ([Fe/H] = -2.7) is substantially below that of the empirical metallicity floor. The Phoenix stream thus represents the debris of the most metal-poor globular cluster discovered so far, and its progenitor is distinct from the present-day globular cluster population in the local Universe. Its existence implies that globular clusters below the metallicity floor have probably existed, but were destroyed during Galactic evolution., Comment: Authors' version of an Article published in Nature on July 29th, 2020

Published

2020

24. Broken into Pieces: ATLAS and Aliqa Uma as One Single Stream

Author

Li, Ting S., Koposov, Sergey E., Erkal, Denis, Ji, Alexander P., Shipp, Nora, Pace, Andrew B., Hilmi, Tariq, Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Cullinane, Lara R., Da Costa, Gary S., Drlica-Wagner, Alex, Hattori, Kohei, Martell, Sarah L., Sharma, Sanjib, Li, Ting S., Koposov, Sergey E., Erkal, Denis, Ji, Alexander P., Shipp, Nora, Pace, Andrew B., Hilmi, Tariq, Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Wan, Zhen, Zucker, Daniel B., Bland-Hawthorn, Joss, Cullinane, Lara R., Da Costa, Gary S., Drlica-Wagner, Alex, Hattori, Kohei, Martell, Sarah L., and Sharma, Sanjib

Abstract

We present the first spectroscopic measurements of the ATLAS and Aliqa Uma streams from the Southern Stellar Stream Spectroscopic Survey ($S^5$), in combination with the photometric data from the Dark Energy Survey and astrometric data from $Gaia$. From the coherence of spectroscopic members in radial velocity and proper motion, we find out that these two systems are extremely likely to be one stream with discontinuity in morphology and density on the sky (the "kink" feature). We refer to this entire stream as the ATLAS-Aliqa Uma stream, or the AAU stream. We perform a comprehensive exploration of the effect of baryonic substructures and find that only an encounter with the Sagittarius dwarf $\sim 0.5$ Gyr ago can create a feature similar to the observed "kink". In addition, we also identify two gaps in the ATLAS component associated with the broadening in the stream width (the "broadening" feature). These gaps have likely been created by small mass perturbers, such as dark matter halos, as the AAU stream is the most distant cold stream known with severe variations in both the stream surface density and the stream track on the sky. With the stream track, stream distance and kinematic information, we determine the orbit of the AAU stream and find that it has been affected by the Large Magellanic Cloud, resulting in a misalignment between the proper motion and stream track. Together with the Orphan-Chenab Stream, AAU is the second stream pair that has been found to be a single stream separated into two segments by external perturbation., Comment: 33 pages, 22 figures (including 1 movie), 3 tables. Accepted for publication in ApJ

Published

2020

25. The closest extremely low-mass white dwarf to the Sun

Author

Kawka, Adela, Simpson, Jeffrey D., Vennes, Stephane, Bessell, Michael S., Da Costa, Gary S., Marino, Anna F., Murphy, Simon J., Kawka, Adela, Simpson, Jeffrey D., Vennes, Stephane, Bessell, Michael S., Da Costa, Gary S., Marino, Anna F., and Murphy, Simon J.

Abstract

We present the orbit and properties of 2MASS J050051.85-093054.9, establishing it as the closest (d ~ 71 pc) extremely low mass white dwarf to the Sun. We find that this star is hydrogen-rich with Teff ~ 10 500 K, log g ~ 5.9, and, following evolutionary models, has a mass of ~ 0.17 solar masses. Independent analysis of radial velocity and TESS photometric time series reveals an orbital period of ~ 9.5 h. Its high velocity amplitude (K ~ 144 km/s) produces a measurable Doppler beaming effect in the TESS light curve with an amplitude of 1 mmag. The unseen companion is most likely a faint white dwarf. J0500-0930 belongs to a class of post-common envelope systems that will most likely merge through unstable mass transfer and in specific circumstances lead to Type Ia supernova explosions., Comment: Accepted for publication in MNRAS Letters

Published

2020

26. The closest extremely low-mass white dwarf to the Sun

Author

Kawka, Adela, Simpson, Jeffrey D, Vennes, Stephane, Bessell, Michael S, Da Costa, Gary S, Marino, Anna F, Murphy, Simon J, Kawka, Adela, Simpson, Jeffrey D, Vennes, Stephane, Bessell, Michael S, Da Costa, Gary S, Marino, Anna F, and Murphy, Simon J

Abstract

We present the orbit and properties of 2MASS J050051.85-093054.9, establishing it as the closest (d ~ 71 pc) extremely low mass white dwarf to the Sun. We find that this star is hydrogen-rich with Teff ~ 10 500 K, log g ~ 5.9, and, following evolutionary models, has a mass of ~ 0.17 solar masses. Independent analysis of radial velocity and TESS photometric time series reveals an orbital period of ~ 9.5 h. Its high velocity amplitude (K ~ 144 km/s) produces a measurable Doppler beaming effect in the TESS light curve with an amplitude of 1 mmag. The unseen companion is most likely a faint white dwarf. J0500-0930 belongs to a class of post-common envelope systems that will most likely merge through unstable mass transfer and in specific circumstances lead to Type Ia supernova explosions.

Published

2020

27. THOR 42: A touchstone $\sim$24 Myr-old eclipsing binary spanning the fully-convective boundary

Author

Murphy, Simon J., Lawson, Warrick A., Onken, Christopher A., Yong, David, Da Costa, Gary S., Zhou, George, Mamajek, Eric E., Bell, Cameron P. M., Bessell, Michael S., Feinstein, Adina D., Murphy, Simon J., Lawson, Warrick A., Onken, Christopher A., Yong, David, Da Costa, Gary S., Zhou, George, Mamajek, Eric E., Bell, Cameron P. M., Bessell, Michael S., and Feinstein, Adina D.

Abstract

We present the characterization of CRTS J055255.7$-$004426 (=THOR 42), a young eclipsing binary comprising two pre-main sequence M dwarfs (combined spectral type M3.5). This nearby (103 pc), short-period (0.859 d) system was recently proposed as a member of the $\sim$24 Myr-old 32 Orionis Moving Group. Using ground- and space-based photometry in combination with medium- and high-resolution spectroscopy, we model the light and radial velocity curves to derive precise system parameters. The resulting component masses and radii are $0.497\pm0.005$ and $0.205\pm0.002$ $\rm{M}_{\odot}$, and $0.659\pm0.003$ and $0.424\pm0.002$ $\rm{R}_{\odot}$, respectively. With mass and radius uncertainties of $\sim$1 per cent and $\sim$0.5 per cent, respectively, THOR 42 is one of the most precisely characterized pre-main sequence eclipsing binaries known. Its systemic velocity, parallax, proper motion, colour-magnitude diagram placement and enlarged radii are all consistent with membership in the 32 Ori Group. The system provides a unique opportunity to test pre-main sequence evolutionary models at an age and mass range not well constrained by observation. From the radius and mass measurements we derive ages of 22-26 Myr using standard (non-magnetic) models, in excellent agreement with the age of the group. However, none of the models can simultaneously reproduce the observed mass, radius, temperature and luminosity of the coeval components. In particular, their H-R diagram ages are 2-4 times younger and we infer masses $\sim$50 per cent smaller than the dynamical values., Comment: Accepted for publication in MNRAS. 22 pages. Tables 4 and 5 are available in full as ancillary files

Published

2019

28. The Great Escape: Discovery of a nearby 1700 km/s star ejected from the Milky Way by Sgr A*

Author

Koposov, Sergey E., Boubert, Douglas, Li, Ting S., Erkal, Denis, Da Costa, Gary S., Zucker, Daniel B., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Shipp, Nora, Wan, Zhen, Belokurov, Vasily, Bland-Hawthorn, Joss, Martell, Sarah L., Nordlander, Thomas, Pace, Andrew B., De Silva, Gayandhi M., Wang, Mei-Yu, Koposov, Sergey E., Boubert, Douglas, Li, Ting S., Erkal, Denis, Da Costa, Gary S., Zucker, Daniel B., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Shipp, Nora, Wan, Zhen, Belokurov, Vasily, Bland-Hawthorn, Joss, Martell, Sarah L., Nordlander, Thomas, Pace, Andrew B., De Silva, Gayandhi M., and Wang, Mei-Yu

Abstract

We present the serendipitous discovery of the fastest Main Sequence hyper-velocity star (HVS) by the Southern Stellar Stream Spectroscopic Survey (S5). The star S5-HVS1 is a $\sim 2.35$ M$_\odot$ A-type star located at a distance of $\sim 9$ kpc from the Sun and has a heliocentric radial velocity of $1017\pm 2.7$ km/s without any signature of velocity variability. The current 3-D velocity of the star in the Galactic frame is $1755\pm50$ km/s. When integrated backwards in time, the orbit of the star points unambiguously to the Galactic Centre, implying that S5-HVS1 was kicked away from Sgr A* with a velocity of $\sim 1800$ km/s and travelled for $4.8$ Myr to its current location. This is so far the only HVS confidently associated with the Galactic Centre. S5-HVS1 is also the first hyper-velocity star to provide constraints on the geometry and kinematics of the Galaxy, such as the Solar motion $V_{y,\odot}= 246.1\pm 5.3$ km/s or position $R_0=8.12\pm 0.23$ kpc. The ejection trajectory and transit time of S5-HVS1 coincide with the orbital plane and age of the annular disk of young stars at the Galactic centre, and thus may be linked to its formation. With the S5-HVS1 ejection velocity being almost twice the velocity of other hyper-velocity stars previously associated with the Galactic Centre, we question whether they have been generated by the same mechanism or whether the ejection velocity distribution has been constant over time., Comment: Accepted to MNRAS; 16 pages

Published

2019

29. THOR 42: A touchstone $\sim$24 Myr-old eclipsing binary spanning the fully-convective boundary

Author

Murphy, Simon J., Lawson, Warrick A., Onken, Christopher A., Yong, David, Da Costa, Gary S., Zhou, George, Mamajek, Eric E., Bell, Cameron P. M., Bessell, Michael S., Feinstein, Adina D., Murphy, Simon J., Lawson, Warrick A., Onken, Christopher A., Yong, David, Da Costa, Gary S., Zhou, George, Mamajek, Eric E., Bell, Cameron P. M., Bessell, Michael S., and Feinstein, Adina D.

Abstract

We present the characterization of CRTS J055255.7$-$004426 (=THOR 42), a young eclipsing binary comprising two pre-main sequence M dwarfs (combined spectral type M3.5). This nearby (103 pc), short-period (0.859 d) system was recently proposed as a member of the $\sim$24 Myr-old 32 Orionis Moving Group. Using ground- and space-based photometry in combination with medium- and high-resolution spectroscopy, we model the light and radial velocity curves to derive precise system parameters. The resulting component masses and radii are $0.497\pm0.005$ and $0.205\pm0.002$ $\rm{M}_{\odot}$, and $0.659\pm0.003$ and $0.424\pm0.002$ $\rm{R}_{\odot}$, respectively. With mass and radius uncertainties of $\sim$1 per cent and $\sim$0.5 per cent, respectively, THOR 42 is one of the most precisely characterized pre-main sequence eclipsing binaries known. Its systemic velocity, parallax, proper motion, colour-magnitude diagram placement and enlarged radii are all consistent with membership in the 32 Ori Group. The system provides a unique opportunity to test pre-main sequence evolutionary models at an age and mass range not well constrained by observation. From the radius and mass measurements we derive ages of 22-26 Myr using standard (non-magnetic) models, in excellent agreement with the age of the group. However, none of the models can simultaneously reproduce the observed mass, radius, temperature and luminosity of the coeval components. In particular, their H-R diagram ages are 2-4 times younger and we infer masses $\sim$50 per cent smaller than the dynamical values., Comment: Accepted for publication in MNRAS. 22 pages. Tables 4 and 5 are available in full as ancillary files

Published

2019

30. The Great Escape: Discovery of a nearby 1700 km/s star ejected from the Milky Way by Sgr A*

Author

Koposov, Sergey E., Boubert, Douglas, Li, Ting S., Erkal, Denis, Da Costa, Gary S., Zucker, Daniel B., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Shipp, Nora, Wan, Zhen, Belokurov, Vasily, Bland-Hawthorn, Joss, Martell, Sarah L., Nordlander, Thomas, Pace, Andrew B., De Silva, Gayandhi M., Wang, Mei-Yu, Koposov, Sergey E., Boubert, Douglas, Li, Ting S., Erkal, Denis, Da Costa, Gary S., Zucker, Daniel B., Ji, Alexander P., Kuehn, Kyler, Lewis, Geraint F., Mackey, Dougal, Simpson, Jeffrey D., Shipp, Nora, Wan, Zhen, Belokurov, Vasily, Bland-Hawthorn, Joss, Martell, Sarah L., Nordlander, Thomas, Pace, Andrew B., De Silva, Gayandhi M., and Wang, Mei-Yu

Abstract

We present the serendipitous discovery of the fastest Main Sequence hyper-velocity star (HVS) by the Southern Stellar Stream Spectroscopic Survey (S5). The star S5-HVS1 is a $\sim 2.35$ M$_\odot$ A-type star located at a distance of $\sim 9$ kpc from the Sun and has a heliocentric radial velocity of $1017\pm 2.7$ km/s without any signature of velocity variability. The current 3-D velocity of the star in the Galactic frame is $1755\pm50$ km/s. When integrated backwards in time, the orbit of the star points unambiguously to the Galactic Centre, implying that S5-HVS1 was kicked away from Sgr A* with a velocity of $\sim 1800$ km/s and travelled for $4.8$ Myr to its current location. This is so far the only HVS confidently associated with the Galactic Centre. S5-HVS1 is also the first hyper-velocity star to provide constraints on the geometry and kinematics of the Galaxy, such as the Solar motion $V_{y,\odot}= 246.1\pm 5.3$ km/s or position $R_0=8.12\pm 0.23$ kpc. The ejection trajectory and transit time of S5-HVS1 coincide with the orbital plane and age of the annular disk of young stars at the Galactic centre, and thus may be linked to its formation. With the S5-HVS1 ejection velocity being almost twice the velocity of other hyper-velocity stars previously associated with the Galactic Centre, we question whether they have been generated by the same mechanism or whether the ejection velocity distribution has been constant over time., Comment: Accepted to MNRAS; 16 pages

Published

2019

31. The EMBLA survey – metal-poor stars in the Galactic bulge

Author

MIT Kavli Institute for Astrophysics and Space Research, Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna L., Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., Tisserand, Patrick, MIT Kavli Institute for Astrophysics and Space Research, Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna L., Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., and Tisserand, Patrick

Abstract

Cosmological models predict the oldest stars in the Galaxy should be found closest to the centre of the potential well, in the bulge. The Extremely Metal-poor BuLge stars with AAOmega survey (EMBLA) successfully searched for these old, metal-poor stars by making use of the distinctive SkyMapper photometric filters to discover candidate metal-poor stars in the bulge. Their metal-poor nature was then confirmed using the AAOmega spectrograph on the Anglo-Australian Telescope. Here we present an abundance analysis of 10 bulge stars with -2.8 < [Fe/H] < -1.7 from MIKE/Magellan observations, in total determining the abundances of 22 elements. Combining these results with our previous high-resolution data taken as part of the Gaia-ESO Survey, we have started to put together a picture of the chemical and kinematic nature of the most metal-poor stars in the bulge. The currently available kinematic data are consistent with the stars belonging to the bulge, although more accurate measurements are needed to constrain the stars' orbits. The chemistry of these bulge stars deviates from that found in halo stars of the same metallicity. Two notable differences are the absence of carbon-enhanced metal-poor bulge stars, and the alpha element abundances exhibit a large intrinsic scatter and include stars which are underabundant in these typically enhanced elements.

Published

2019

32. SkyMapper Southern Survey: First Data Release (DR1)

Author

Wolf, Christian, Onken, Christopher A., Luvaul, Lance C., Schmidt, Brian P., Bessell, Michael S., Chang, Seo-Won, Da Costa, Gary S., Mackey, Dougal, Martin-Jones, Tony, Murphy, Simon J., Preston, Tim, Scalzo, Richard A., Shao, Li, Smillie, Jon, Tisserand, Patrick, White, Marc C., Yuan, Fang, Wolf, Christian, Onken, Christopher A., Luvaul, Lance C., Schmidt, Brian P., Bessell, Michael S., Chang, Seo-Won, Da Costa, Gary S., Mackey, Dougal, Martin-Jones, Tony, Murphy, Simon J., Preston, Tim, Scalzo, Richard A., Shao, Li, Smillie, Jon, Tisserand, Patrick, White, Marc C., and Yuan, Fang

Abstract

We present the first data release (DR1) of the SkyMapper Southern Survey, a hemispheric survey carried out with the SkyMapper Telescope at Siding Spring Observatory in Australia. Here, we present the survey strategy, data processing, catalogue construction and database schema. The DR1 dataset includes over 66,000 images from the Shallow Survey component, covering an area of 17,200 deg$^2$ in all six SkyMapper passbands $uvgriz$, while the full area covered by any passband exceeds 20,000 deg$^2$. The catalogues contain over 285 million unique astrophysical objects, complete to roughly 18 mag in all bands. We compare our $griz$ point-source photometry with PanSTARRS1 DR1 and note an RMS scatter of 2%. The internal reproducibility of SkyMapper photometry is on the order of 1%. Astrometric precision is better than 0.2 arcsec based on comparison with Gaia DR1. We describe the end-user database, through which data are presented to the world community, and provide some illustrative science queries., Comment: 31 pages, 19 figures, 10 tables, PASA, accepted

Published

2018

33. SkyMapper Southern Survey: First Data Release (DR1)

Author

Wolf, Christian, Onken, Christopher A., Luvaul, Lance C., Schmidt, Brian P., Bessell, Michael S., Chang, Seo-Won, Da Costa, Gary S., Mackey, Dougal, Martin-Jones, Tony, Murphy, Simon J., Preston, Tim, Scalzo, Richard A., Shao, Li, Smillie, Jon, Tisserand, Patrick, White, Marc C., Yuan, Fang, Wolf, Christian, Onken, Christopher A., Luvaul, Lance C., Schmidt, Brian P., Bessell, Michael S., Chang, Seo-Won, Da Costa, Gary S., Mackey, Dougal, Martin-Jones, Tony, Murphy, Simon J., Preston, Tim, Scalzo, Richard A., Shao, Li, Smillie, Jon, Tisserand, Patrick, White, Marc C., and Yuan, Fang

Abstract

We present the first data release (DR1) of the SkyMapper Southern Survey, a hemispheric survey carried out with the SkyMapper Telescope at Siding Spring Observatory in Australia. Here, we present the survey strategy, data processing, catalogue construction and database schema. The DR1 dataset includes over 66,000 images from the Shallow Survey component, covering an area of 17,200 deg$^2$ in all six SkyMapper passbands $uvgriz$, while the full area covered by any passband exceeds 20,000 deg$^2$. The catalogues contain over 285 million unique astrophysical objects, complete to roughly 18 mag in all bands. We compare our $griz$ point-source photometry with PanSTARRS1 DR1 and note an RMS scatter of 2%. The internal reproducibility of SkyMapper photometry is on the order of 1%. Astrometric precision is better than 0.2 arcsec based on comparison with Gaia DR1. We describe the end-user database, through which data are presented to the world community, and provide some illustrative science queries., Comment: 31 pages, 19 figures, 10 tables, PASA, accepted

Published

2018

34. A chemical signature from fast-rotating low-metallicity massive stars: ROA 276 in omega Centauri

Author

Yong, David, Norris, John E., Da Costa, Gary S., Stanford, Laura M., Karakas, Amanda I., Shingles, Luke J., Hirschi, Raphael, Pignatari, Marco, Yong, David, Norris, John E., Da Costa, Gary S., Stanford, Laura M., Karakas, Amanda I., Shingles, Luke J., Hirschi, Raphael, and Pignatari, Marco

Abstract

We present a chemical abundance analysis of a metal-poor star, ROA 276, in the stellar system omega Centauri. We confirm that this star has an unusually high [Sr/Ba] abundance ratio. Additionally, ROA 276 exhibits remarkably high abundance ratios, [X/Fe], for all elements from Cu to Mo along with normal abundance ratios for the elements from Ba to Pb. The chemical abundance pattern of ROA 276, relative to a primordial omega Cen star ROA 46, is best fit by a fast-rotating low-metallicity massive stellar model of 20 Msun, [Fe/H] = -1.8, and an initial rotation 0.4 times the critical value; no other nucleosynthetic source can match the neutron-capture element distribution. ROA 276 arguably offers the most definitive proof to date that fast-rotating massive stars contributed to the production of heavy elements in the early Universe., Comment: ApJ in press

Published

2017

35. Tidal tails around the outer halo globular clusters Eridanus and Palomar 15

Author

Myeong, G. C., Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S., Myeong, G. C., Jerjen, Helmut, Mackey, Dougal, and Da Costa, Gary S.

Abstract

We report the discovery of tidal tails around the two outer halo globular clusters, Eridanus and Palomar 15, based on $gi$-band images obtained with DECam at the CTIO 4-m Blanco Telescope. The tidal tails are among the most remote stellar streams presently known in the Milky Way halo. Cluster members have been determined from the color-magnitude diagrams and used to establish the radial density profiles, which show, in both cases, a strong departure in the outer regions from the best-fit King profile. Spatial density maps reveal tidal tails stretching out on opposite sides of both clusters, extending over a length of $\sim$760 pc for Eridanus and $\sim$1160 pc for Palomar 15. The great circle projected from the Palomar 15 tidal tails encompasses the Galactic Center, while that for Eridanus passes close to four dwarf satellite galaxies, one of which (Sculptor) is at a comparable distance to that of Eridanus., Comment: 6 pages, 3 figures, 1 table, ApJ Letters, accepted

Published

2017

36. Tidal tails around the outer halo globular clusters Eridanus and Palomar 15

Author

Myeong, G. C., Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S., Myeong, G. C., Jerjen, Helmut, Mackey, Dougal, and Da Costa, Gary S.

Abstract

We report the discovery of tidal tails around the two outer halo globular clusters, Eridanus and Palomar 15, based on $gi$-band images obtained with DECam at the CTIO 4-m Blanco Telescope. The tidal tails are among the most remote stellar streams presently known in the Milky Way halo. Cluster members have been determined from the color-magnitude diagrams and used to establish the radial density profiles, which show, in both cases, a strong departure in the outer regions from the best-fit King profile. Spatial density maps reveal tidal tails stretching out on opposite sides of both clusters, extending over a length of $\sim$760 pc for Eridanus and $\sim$1160 pc for Palomar 15. The great circle projected from the Palomar 15 tidal tails encompasses the Galactic Center, while that for Eridanus passes close to four dwarf satellite galaxies, one of which (Sculptor) is at a comparable distance to that of Eridanus., Comment: 6 pages, 3 figures, 1 table, ApJ Letters, accepted

Published

2017

37. A chemical signature from fast-rotating low-metallicity massive stars: ROA 276 in omega Centauri

Author

Yong, David, Norris, John E., Da Costa, Gary S., Stanford, Laura M., Karakas, Amanda I., Shingles, Luke J., Hirschi, Raphael, Pignatari, Marco, Yong, David, Norris, John E., Da Costa, Gary S., Stanford, Laura M., Karakas, Amanda I., Shingles, Luke J., Hirschi, Raphael, and Pignatari, Marco

Abstract

We present a chemical abundance analysis of a metal-poor star, ROA 276, in the stellar system omega Centauri. We confirm that this star has an unusually high [Sr/Ba] abundance ratio. Additionally, ROA 276 exhibits remarkably high abundance ratios, [X/Fe], for all elements from Cu to Mo along with normal abundance ratios for the elements from Ba to Pb. The chemical abundance pattern of ROA 276, relative to a primordial omega Cen star ROA 46, is best fit by a fast-rotating low-metallicity massive stellar model of 20 Msun, [Fe/H] = -1.8, and an initial rotation 0.4 times the critical value; no other nucleosynthetic source can match the neutron-capture element distribution. ROA 276 arguably offers the most definitive proof to date that fast-rotating massive stars contributed to the production of heavy elements in the early Universe., Comment: ApJ in press

Published

2017

38. A spectroscopy-based Age-Metallicity Relation of the SMC

Author

Kayser, Andrea, Grebel, Eva K., Harbeck, Daniel R., Cole, Andrew A., Koch, Andreas, Glatt, Katharina, Gallagher, John S., Da Costa, Gary S., Kayser, Andrea, Grebel, Eva K., Harbeck, Daniel R., Cole, Andrew A., Koch, Andreas, Glatt, Katharina, Gallagher, John S., and Da Costa, Gary S.

Abstract

The Small Magellanic Cloud (SMC) is the only dwarf galaxy in the Local Group that is known to have formed and preserved populous star clusters continuously over the past 12 Gyr. Due to its proximity (≈ 60 kpc), stars can be resolved well below the oldest main sequence turnoff points. This facilitates accurate age and metallicity determinations without suffering from the age-metallicity degeneracy. Therefore, the SMC star clusters provide a unique closely spaced set of single-age, single-metallicity tracers to derive a well-sampled age-metallicity relation required for the understanding of the star formation history of this satellite galaxy. Up to date spectroscopically based metallicity estimates exist only for the small number of 7 clusters (Da Costa & Hatzidimitriou 1998). Our project now more than doubles the available data set by the observation of 10 additional clusters

Published

2017

39. The EMBLA survey - metal-poor stars in the Galactic bulge

Author

Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna, Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., Tisserand, Patrick, Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna, Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., and Tisserand, Patrick

Abstract

Cosmological models predict the oldest stars in the Galaxy should be found closest to the centre of the potential well, in the bulge. The Extremely Metal-poor BuLge stars with AAOmega survey (EMBLA) successfully searched for these old, metal-poor stars by making use of the distinctive SkyMapper photometric filters to discover candidate metal-poor stars in the bulge. Their metal-poor nature was then confirmed using the AAOmega spectrograph on the Anglo-Australian Telescope. Here we present an abundance analysis of 10 bulge stars with -2.8 < [Fe/H] < -1.7 from MIKE/Magellan observations, in total determining the abundances of 22 elements. Combining these results with our previous high-resolution data taken as part of the Gaia-ESO Survey, we have started to put together a picture of the chemical and kinematic nature of the most metal-poor stars in the bulge. The currently available kinematic data are consistent with the stars belonging to the bulge, although more accurate measurements are needed to constrain the stars' orbits. The chemistry of these bulge stars deviates from that found in halo stars of the same metallicity. Two notable differences are the absence of carbon-enhanced metal-poor bulge stars, and the alpha element abundances exhibit a large intrinsic scatter and include stars which are underabundant in these typically enhanced elements.

Published

2016

40. Confirming the intrinsic abundance spread in the globular cluster NGC 6273 (M 19) with calcium triplet spectroscopy

Author

Yong, David, Da Costa, Gary S., Norris, John E., Yong, David, Da Costa, Gary S., and Norris, John E.

Abstract

We present metallicities for red giant stars in the globular cluster NGC 6273 based on intermediate resolution GMOS-S spectra of the calcium triplet region. For the 42 radial velocity members with reliable calcium triplet line strength measurements, we obtain metallicities, [Fe/H], using calibrations established from standard globular clusters. We confirm the presence of an intrinsic abundance dispersion identified by Johnson et al. (2015). The total range in [Fe/H] is ~1.0 dex and after taking into account the measurement errors, the intrinsic abundance dispersion is \sigma[Fe/H] = 0.17 dex. Among the Galactic globular clusters, the abundance dispersion in NGC 6273 is only exceeded by omega Cen, which is regarded as the remnant of a disrupted dwarf galaxy, and M 54, which is the nuclear star cluster of the Sagittarius dwarf galaxy. If these three globular clusters share the same formation mechanism, then NGC 6273 may also be the remnant nucleus of a disrupted dwarf galaxy., Comment: MNRAS in press

Published

2016

41. The EMBLA Survey -- Metal-poor stars in the Galactic bulge

Author

Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna, Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., Tisserand, Patrick, Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna, Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., and Tisserand, Patrick

Abstract

Cosmological models predict the oldest stars in the Galaxy should be found closest to the centre of the potential well, in the bulge. The EMBLA Survey successfully searched for these old, metal-poor stars by making use of the distinctive SkyMapper photometric filters to discover candidate metal-poor stars in the bulge. Their metal-poor nature was then confirmed using the AAOmega spectrograph on the AAT. Here we present an abundance analysis of 10 bulge stars with -2.8<[Fe/H]<-1.7 from MIKE/Magellan observations, in total determining the abundances of 22 elements. Combining these results with our previous high-resolution data taken as part of the Gaia-ESO Survey, we have started to put together a picture of the chemical and kinematic nature of the most metal-poor stars in the bulge. The currently available kinematic data is consistent with the stars belonging to the bulge, although more accurate measurements are needed to constrain the stars' orbits. The chemistry of these bulge stars deviates from that found in halo stars of the same metallicity. Two notable differences are the absence of carbon-enhanced metal-poor bulge stars, and the alpha-element abundances exhibit a large intrinsic scatter and include stars which are underabundant in these typically enhanced elements., Comment: 20 pages, 16 figures. Accepted to Monthly Notices of the Royal Astronomical Society. Online tables can be found at http://www.astro.lu.se/~louise/data

Published

2016

42. The EMBLA Survey -- Metal-poor stars in the Galactic bulge

Author

Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna, Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., Tisserand, Patrick, Howes, Louise M., Asplund, Martin, Keller, Stefan C., Casey, Andrew R., Yong, David, Lind, Karin, Frebel, Anna, Hays, Austin, Alves-Brito, Alan, Bessell, Michael S., Casagrande, Luca, Marino, Anna F., Nataf, David M., Owen, Christopher I., Da Costa, Gary S., Schmidt, Brian P., and Tisserand, Patrick

Abstract

Cosmological models predict the oldest stars in the Galaxy should be found closest to the centre of the potential well, in the bulge. The EMBLA Survey successfully searched for these old, metal-poor stars by making use of the distinctive SkyMapper photometric filters to discover candidate metal-poor stars in the bulge. Their metal-poor nature was then confirmed using the AAOmega spectrograph on the AAT. Here we present an abundance analysis of 10 bulge stars with -2.8<[Fe/H]<-1.7 from MIKE/Magellan observations, in total determining the abundances of 22 elements. Combining these results with our previous high-resolution data taken as part of the Gaia-ESO Survey, we have started to put together a picture of the chemical and kinematic nature of the most metal-poor stars in the bulge. The currently available kinematic data is consistent with the stars belonging to the bulge, although more accurate measurements are needed to constrain the stars' orbits. The chemistry of these bulge stars deviates from that found in halo stars of the same metallicity. Two notable differences are the absence of carbon-enhanced metal-poor bulge stars, and the alpha-element abundances exhibit a large intrinsic scatter and include stars which are underabundant in these typically enhanced elements., Comment: 20 pages, 16 figures. Accepted to Monthly Notices of the Royal Astronomical Society. Online tables can be found at http://www.astro.lu.se/~louise/data

Published

2016

43. Confirming the intrinsic abundance spread in the globular cluster NGC 6273 (M 19) with calcium triplet spectroscopy

Author

Yong, David, Da Costa, Gary S., Norris, John E., Yong, David, Da Costa, Gary S., and Norris, John E.

Abstract

We present metallicities for red giant stars in the globular cluster NGC 6273 based on intermediate resolution GMOS-S spectra of the calcium triplet region. For the 42 radial velocity members with reliable calcium triplet line strength measurements, we obtain metallicities, [Fe/H], using calibrations established from standard globular clusters. We confirm the presence of an intrinsic abundance dispersion identified by Johnson et al. (2015). The total range in [Fe/H] is ~1.0 dex and after taking into account the measurement errors, the intrinsic abundance dispersion is \sigma[Fe/H] = 0.17 dex. Among the Galactic globular clusters, the abundance dispersion in NGC 6273 is only exceeded by omega Cen, which is regarded as the remnant of a disrupted dwarf galaxy, and M 54, which is the nuclear star cluster of the Sagittarius dwarf galaxy. If these three globular clusters share the same formation mechanism, then NGC 6273 may also be the remnant nucleus of a disrupted dwarf galaxy., Comment: MNRAS in press

Published

2016

44. High-Resolution Spectroscopic Study of Extremely Metal-Poor Star Candidates from the Skymapper Survey

Author

Jacobson, Heather R., Keller, Stefan, Frebel, Anna, Casey, Andrew R., Asplund, Martin, Bessell, Michael S., Da Costa, Gary S., Lind, Karin, Marino, Anna F., Norris, John E., Pena, Jose M., Schmidt, Brian P., Tisserand, Patrick, Walsh, Jennifer M., Yong, David, Yu, Qinsi, Jacobson, Heather R., Keller, Stefan, Frebel, Anna, Casey, Andrew R., Asplund, Martin, Bessell, Michael S., Da Costa, Gary S., Lind, Karin, Marino, Anna F., Norris, John E., Pena, Jose M., Schmidt, Brian P., Tisserand, Patrick, Walsh, Jennifer M., Yong, David, and Yu, Qinsi

Abstract

The SkyMapper Southern Sky Survey is carrying out a search for the most metal-poor stars in the Galaxy. It identifies candidates by way of its unique filter set which allows for estimation of stellar atmospheric parameters. The set includes a narrow filter centered on the Ca II K 3933 angstrom line, enabling a robust estimate of stellar metallicity. Promising candidates are then confirmed with spectroscopy. We present the analysis of Magellan Inamori Kyocera Echelle high-resolution spectroscopy of 122 metal-poor stars found by SkyMapper in the first two years of commissioning observations. Forty-one stars have [Fe/H] <= -3.0. Nine have [Fe/H] <= -3.5, with three at [Fe/H] similar to -4. A 1D LTE abundance analysis of the elements Li, C, Na, Mg, Al, Si, Ca, Sc, Ti, Cr, Mn, Co, Ni, Zn, Sr, Ba, and Eu shows these stars have [X/Fe] ratios typical of other halo stars. One star with low [X/Fe] values appears to be "Fe-enhanced," while another star has an extremely large [Sr/Ba] ratio: >2. Only one other star is known to have a comparable value. Seven stars are "CEMP-no" stars ([C/Fe] > 0.7, [Ba/Fe] < 0). 21 stars exhibit mild r-process element enhancements (0.3 <= [Eu/Fe] < 1.0), while four stars have [Eu/Fe] >= 1.0. These results demonstrate the ability to identify extremely metal-poor stars from SkyMapper photometry, pointing to increased sample sizes and a better characterization of the metal-poor tail of the halo metallicity distribution function in the future.

Published

2015

45. Kim 3: an Ultra-faint Star Cluster in the Constellation of Centaurus

Author

Kim, Dongwon, Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S, Milone, Antonino P, Kim, Dongwon, Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S, and Milone, Antonino P

Abstract

We report the discovery of an ultra-faint star cluster in the constellation of Centaurus. This new stellar system, Kim 3, features a half light radius of $r_{h}=2.29^{+1.28}_{-0.52}$ pc and a total luminosity of $M_{V}=+0.7\pm0.3$. Approximately 26 stars are identified as candidate member stars down to four magnitudes below the main-sequence turn-off, which makes Kim 3 the least luminous star cluster known to date. The compact physical size and extreme low luminosity place it close to faint star clusters in the size-luminosity plane. The stellar population of Kim 3 appears to be relatively young ($9.5^{+3.0}_{-1.7}$ Gyr) and metal-poor ([Fe/H]$=-1.6^{+0.45}_{-0.30}$) at a heliocentric distance of $15.14^{+1.00}_{-0.28}$ kpc. The cluster lacks a well-defined center and a small but prominent group of stars consistent with the Kim 3 isochrone is present approximately 9.7 pc in projection south of the cluster center. Both are signs of the cluster being in the final stage of tidal disruption., Comment: 7 pages, 7 figures, 1 table. Accepted for publication in the ApJ (w.r.t v1: Figure 1 and the last paragraph of Section 4 updated, minor corrections throughout the text)

Published

2015

46. A 10 kpc stellar substructure at the edge of the Large Magellanic Cloud: perturbed outer disk or evidence for tidal stripping?

Author

Mackey, Dougal, Koposov, Sergey E., Erkal, Denis, Belokurov, Vasily, Da Costa, Gary S., Gómez, Facundo A., Mackey, Dougal, Koposov, Sergey E., Erkal, Denis, Belokurov, Vasily, Da Costa, Gary S., and Gómez, Facundo A.

Abstract

We report the discovery of a substantial stellar overdensity in the periphery of the Large Magellanic Cloud (LMC), found using public imaging from the first year of the Dark Energy Survey. The structure appears to emanate from the edge of the outer LMC disk at a radius $\approx 13.5$ degrees due north of its centre, and stretches more than $10$ kpc towards the east. It is roughly $1.5$ kpc wide and has an integrated $V$-band luminosity of at least $M_V = -7.4$. The stellar populations in the feature are indistinguishable from those in the outer LMC disk. We attempt to quantify the geometry of the outer disk using simple planar models, and find that only a disk with mild intrinsic ellipticity can simultaneously explain the observed stellar density on the sky and the azimuthal line-of-sight distance profile. We also see possible non-planar behaviour in the outer disk that may reflect a warp and/or flare, as well as deviations that resemble a ring-like structure between $\sim9-12$ degrees from the LMC centre. Based on all these observations, we conclude that our remote, stream-like feature is likely comprised of material that has been stripped from the outskirts of the LMC disk, although we cannot rule out that it represents a transient overdensity in the disk itself. We conduct a simple $N$-body simulation to show that either type of structure could plausibly arise due to the tidal force of the Milky Way; however we also recognize that a recent close interaction between the LMC and the SMC may be the source of the stripping or perturbation. Finally, we observe evidence for extremely diffuse LMC populations extending to radii of $\sim 18.5$ kpc in the disk plane ($\approx 20$ degrees on the sky), corroborating previous spectroscopic detections at comparable distances., Comment: Accepted for publication in MNRAS; this posting updated to match the accepted version

Published

2015

47. Discovery of a Faint Outer Halo Milky Way Star Cluster in the Southern Sky

Author

Kim, Dongwon, Jerjen, Helmut, Milone, Antonino P., Mackey, Dougal, Da Costa, Gary S., Kim, Dongwon, Jerjen, Helmut, Milone, Antonino P., Mackey, Dougal, and Da Costa, Gary S.

Abstract

We report the discovery of a new, low luminosity star cluster in the outer halo of the Milky Way. High quality $gr$ photometry is presented, from which a color-magnitude diagram is constructed, and estimates of age, [Fe/H], [$\alpha$/Fe], and distance are derived. The star cluster, which we designate as Kim 2, lies at a heliocentric distance of $\sim105$ kpc. With a half-light radius of $\sim12.8$ pc and ellipticity of $\epsilon\sim0.12$, it shares the properties of outer halo GCs, except for the higher metallicity ([Fe/H]$\sim-1.0$) and lower luminosity ($M_{V}\sim-1.5)$. These parameters are similar to those for the globular cluster AM 4, that is considered to be associated with the Sagittarius dwarf spheroidal galaxy. We find evidence of dynamical mass segregation and the presence of extra-tidal stars that suggests Kim 2 is most likely a star cluster. Spectroscopic observations for radial-velocity membership and chemical abundance measurements are needed to further understand the nature of the object., Comment: 10 pages, 7 figures, and 4 tables. Accepted for publication in ApJ

Published

2015

48. High-Resolution Spectroscopic Study of Extremely Metal-Poor Star Candidates from the SkyMapper Survey

Author

Jacobson, Heather. R., Keller, Stefan, Frebel, Anna, Casey, Andrew R., Asplund, Martin, Bessell, Michael S., Da Costa, Gary S., Lind, Karin, Marino, Anna F., Norris, John E., Pena, Jose M., Schmidt, Brian P., Tisserand, Patrick, Walsh, Jennifer M., Yong, David, Yu, Qinsi, Jacobson, Heather. R., Keller, Stefan, Frebel, Anna, Casey, Andrew R., Asplund, Martin, Bessell, Michael S., Da Costa, Gary S., Lind, Karin, Marino, Anna F., Norris, John E., Pena, Jose M., Schmidt, Brian P., Tisserand, Patrick, Walsh, Jennifer M., Yong, David, and Yu, Qinsi

Abstract

The SkyMapper Southern Sky Survey is carrying out a search for the most metal-poor stars in the Galaxy. It identifies candidates by way of its unique filter set that allows for estimation of stellar atmospheric parameters. The set includes a narrow filter centered on the Ca II K 3933A line, enabling a robust estimate of stellar metallicity. Promising candidates are then confirmed with spectroscopy. We present the analysis of Magellan-MIKE high-resolution spectroscopy of 122 metal-poor stars found by SkyMapper in the first two years of commissioning observations. 41 stars have [Fe/H] <= -3.0. Nine have [Fe/H] <= -3.5, with three at [Fe/H] ~ -4. A 1D LTE abundance analysis of the elements Li, C, Na, Mg, Al, Si, Ca, Sc, Ti, Cr, Mn, Co, Ni, Zn, Sr, Ba and Eu shows these stars have [X/Fe] ratios typical of other halo stars. One star with low [X/Fe] values appears to be "Fe-enhanced," while another star has an extremely large [Sr/Ba] ratio: >2. Only one other star is known to have a comparable value. Seven stars are "CEMP-no" stars ([C/Fe] > 0.7, [Ba/Fe] < 0). 21 stars exhibit mild r-process element enhancements (0.3 <=[Eu/Fe] < 1.0), while four stars have [Eu/Fe] >= 1.0. These results demonstrate the ability to identify extremely metal-poor stars from SkyMapper photometry, pointing to increased sample sizes and a better characterization of the metal-poor tail of the halo metallicity distribution function in the future., Comment: Minor corrections to text, missing data added to Tables 3 and 4; updated to match published version. Complete tables included in source

Published

2015

49. A Hero's Dark Horse: Discovery of an Ultra-Faint Milky Way Satellite in Pegasus

Author

Kim, Dongwon, Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S., Milone, Antonino P., Kim, Dongwon, Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S., and Milone, Antonino P.

Abstract

We report the discovery of an ultra-faint Milky Way satellite galaxy in the constellation of Pegasus. The concentration of stars was detected by applying our overdensity detection algorithm to the SDSS-DR 10 and confirmed with deeper photometry from the Dark Energy Camera at the 4-m Blanco telescope. Fitting model isochrones indicates that this object, Pegasus III, features an old and metal-poor stellar population ([Fe/H]$\sim-2.1$) at a heliocentric distance of $205\pm20$ kpc. The new stellar system has an estimated half-light radius of $r_h=78^{+30}_{-24}$ pc and a total luminosity of $M_{V}\sim-4.1\pm0.5$ that places it into the domain of dwarf galaxies on the size--luminosity plane. Pegasus III is spatially close to the MW satellite Pisces II. It is possible that the two might be physically associated, similar to the Leo IV and Leo V pair. Pegasus III is also well aligned with the Vast Polar Structure, which suggests a possible physical association., Comment: 5 pages, 4 figures, 1 table. Accepted for publication in ApJL

Published

2015

50. Kim 3: an Ultra-faint Star Cluster in the Constellation of Centaurus

Author

Kim, Dongwon, Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S, Milone, Antonino P, Kim, Dongwon, Jerjen, Helmut, Mackey, Dougal, Da Costa, Gary S, and Milone, Antonino P

Abstract

We report the discovery of an ultra-faint star cluster in the constellation of Centaurus. This new stellar system, Kim 3, features a half light radius of $r_{h}=2.29^{+1.28}_{-0.52}$ pc and a total luminosity of $M_{V}=+0.7\pm0.3$. Approximately 26 stars are identified as candidate member stars down to four magnitudes below the main-sequence turn-off, which makes Kim 3 the least luminous star cluster known to date. The compact physical size and extreme low luminosity place it close to faint star clusters in the size-luminosity plane. The stellar population of Kim 3 appears to be relatively young ($9.5^{+3.0}_{-1.7}$ Gyr) and metal-poor ([Fe/H]$=-1.6^{+0.45}_{-0.30}$) at a heliocentric distance of $15.14^{+1.00}_{-0.28}$ kpc. The cluster lacks a well-defined center and a small but prominent group of stars consistent with the Kim 3 isochrone is present approximately 9.7 pc in projection south of the cluster center. Both are signs of the cluster being in the final stage of tidal disruption., Comment: 7 pages, 7 figures, 1 table. Accepted for publication in the ApJ (w.r.t v1: Figure 1 and the last paragraph of Section 4 updated, minor corrections throughout the text)

Published

2015