An Ao-Assisted Variability Study of Four Globular Clusters*

Salinas, R.; Ramos, R. Contreras; Strader, Jay; Hakala, Pasi; Catelan, M.; Peacock, Mark B.; Simunovic, Mirko

doi:10.3847/0004-6256/152/3/55

Cited by 20 publications

(11 citation statements)

References 50 publications

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“…Salinas et al 2015). c) Nearly 40 bright and reasonably isolated point sources were selected in the image with the best image quality, in order to model the point-spread-function (PSF) as a 1 1 https://www.astro.uni-bonn.de/theli/gui/background.html quadratically varying Moffat function as performed in previous studies with the same instrument (Fraga et al 2013;Salinas et al 2016). The resulting PSF subtracted images revealed no significant increase of the residuals as function of radius across the whole small FOV (3 × 3 arcmin 2 ).…”

Section: Data Reduction and Photometrymentioning

confidence: 99%

A likely runaway star cluster in the outer disc of the Large Magellanic Cloud

Piatti

Salinas

Grebel

2018

Monthly Notices of the Royal Astronomical Society

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We present results from photometric and spectroscopic data obtained with SOAR and Gemini observatory facilities in the field of a recently discovered star cluster. The cluster, projected towards the Eastern side of the outer disc of the Large Magellanic Cloud (LMC), was originally placed nearly 10 kpc behind the LMC with an age and metallicity typical of the innermost LMC star cluster population. We assigned radial velocity (RV) memberships to stars observed spectroscopically, and derived the cluster age and distance from theoretical isochrone fitting to the cluster colour-magnitude diagram. The new object turned out to be a 0.9 Gyr old outer LMC disc cluster, which possibly reached the present position after being scattered from the innermost LMC regions where it might have been born. We arrived at this conclusion by examining the spatial distribution of LMC star clusters of similar age, by comparing the derived spectroscopic metallicity with that expected for an outside-in galaxy formation scenario, by considering the cluster internal dynamical stage as inferred from its derived structural parameters and by estimating the circular velocity of a disc that rotates with the corresponding star cluster radial velocity at the cluster's deprojected distance, which resulted to be nearly 60 per cent higher than that of most of the outer LMC disc clusters.

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Section: Data Reduction and Photometrymentioning

confidence: 99%

A likely runaway star cluster in the outer disc of the Large Magellanic Cloud

Piatti

Salinas

Grebel

2018

Monthly Notices of the Royal Astronomical Society

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“…All subtracted images are stacked in a variance image, which is then visually inspected for residuals consistent with intrinsically varying sources (e.g. Salinas et al 2016a).…”

Section: Variability Search and Period Determinationmentioning

confidence: 99%

“…Even though variability in star clusters in the Milky Way have been extensively studied (e.g. Clement et al 2001;Salinas et al 2016a), in the Magellanic Clouds (MCs), the large variability surveys like OGLE (Udalski et al 2015) and SuperMACHO (Rest et al 2005) have only scratched the surface of variability in dense star clusters given the difficulties posed by crowding at these distances; and very few clusters have been targeted individually for variability outside these surveys (e.g. Kuehn et al 2013).…”

Section: Introductionmentioning

confidence: 99%

Short period variability in the globular cluster NGC 419 and the SMC field

Martinez-Vazquez,

Salinas,

Vivas

2020

Preprint

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We present the discovery of 54 Delta Scuti variables (δ Sct ) and three eclipsing binaries in the field of NGC 419, an intermediate-age globular cluster of the Small Magellanic Cloud (SMC), using g, r, i Gemini-S/GMOS time series observations. We find that only a handful of the δ Sct appear at the main sequence turnoff (MSTO) of the cluster while the majority is fainter, indicating that NGC 419 is younger (t 1.2 Gyr) than previously thought. Considering their radial distribution, we identify only six δ Sct as probable members of NGC 419 while the 48 remaining are likely δ Sct of the field of the SMC. Cluster δ Sct appear close to the red edge of the MSTO, supporting the idea that the extended MSTO has its origin in an age spread. The 48 field δ Sct represent the largest detection of δ Sct made in the field of the SMC. From them, we estimate the density of δ Sct in the field of the SMC in 1.6 δ Sct per arcmin −2 , which implies tens of thousands of δ Sct are to be discovered in the SMC. We have compared the period and amplitude distribution with other catalogs of δ Sct available in the literature, concluding that our work is barely biased in terms of short periods (P 0.04 d) and lowamplitudes (∆r 0.05 mag). Finally, we use the δ Sct population to calculate the distance modulus to the NGC 419 field using different period-luminosity relations. The average distance modulus obtained is 18.83 ± 0.27 mag, which agrees with previous measurements.

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“…Due to the large 14-arcmin FOV of the proposed GLAO system and the large telescope aperture, there is still much work that needs to be further studied. First, although we have defined different metrics for the GLAO performance evaluation of different scientific observations, it still needs improvement: we plan to consider different scientific observations (Basden, Evans & Morris 2014;Salinas et al 2016;Chun et al 2016;Mendes de Oliveira et al 2017;Gavel 2017) and carry out end-to-end observation simulations to generate real observation data for further performance analysis. We will also use some clustering-based PSF evaluation methods (Jia et al 2017) to better evaluate the GLAO performance.…”

Section: O N C L U S I O N S a N D F U T U R E W O R Kmentioning

confidence: 99%

OUP accepted manuscript

Jia

Basden

Osborn

2018

MNRAS

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An Ao-Assisted Variability Study of Four Globular Clusters*

Cited by 20 publications

References 50 publications

A likely runaway star cluster in the outer disc of the Large Magellanic Cloud

A likely runaway star cluster in the outer disc of the Large Magellanic Cloud

Short period variability in the globular cluster NGC 419 and the SMC field

OUP accepted manuscript

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