Cl* NGC 104 WSB V69 , the SIMBAD biblio

Cl* NGC 104 WSB V69 , the SIMBAD biblio (26 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.19CEST23:06:36

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Bibcode/DOI Score in Title|Abstract|
Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
2004AJ....128..736W 105 47 A comprehensive catalog of variable stars in the field of 47 Tucanae. WELDRAKE D.T.F., SACKETT P.D., BRIDGES T.J., et al.
2008AJ....136..400K viz 38           X         1 12 8 The Cluster Ages Experiment (CASE). III. Analysis of the eccentric eclipsing binary V32 in the globular cluster NGC 6397. KALUZNY J., THOMPSON I.B., RUCINSKI S.M., et al.
2010AJ....139..329T 292 T K A     X         7 14 67 The Cluster AgeS Experiment (CASE). IV. Analysis of the eclipsing binary
V69 in the globular cluster 47 Tuc. 		THOMPSON I.B., KALUZNY J., RUCINSKI S.M., et al.
2011A&A...526A..29H viz 77           X         2 21 21 Orbital and physical parameters of eclipsing binaries from the All-Sky Automated Survey catalogue. II. Two spotted M < 1 M systems at different evolutionary stages. HELMINIAK K.G. and KONACKI M.
2013AJ....145...43K viz 235   K A D     X C       6 13 28 The Cluster AgeS Experiment (CASE). V. Analysis of three eclipsing binaries in the globular cluster M4. KALUZNY J., THOMPSON I.B., ROZYCZKA M., et al.
2013Natur.500...51H 11 5 114 An age difference of two billion years between a metal-rich and a metal-poor globular cluster. HANSEN B.M.S., KALIRAI J.S., ANDERSON J., et al.
2014A&A...571A..56G 40           X         1 7 14 The white dwarf cooling sequence of 47 Tucanae. GARCIA-BERRO E., TORRES S., ALTHAUS L.G., et al.
2014NewA...26..116L 79             C       2 3 4 Identification of a deep contact binary in the field of the globular cluster 47 Tuc. LIU L., QIAN S.-B. and FERNANDEZ LAJUS E.
2015AJ....149..131E viz 16       D               4 213 106 Main-sequence effective temperatures from a revised mass-luminosity relation based on accurate properties. EKER Z., SOYDUGAN F., SOYDUGAN E., et al.
2015ApJ...804...53H 43           X         1 3 19 A measurement of diffusion in 47 Tucanae. HEYL J., RICHER H.B., ANTOLINI E., et al.
2014PASA...31...24E viz 16       D               1 258 57 The catalogue of stellar parameters from the detached double-lined eclipsing binaries in the Milky Way. EKER Z., BILIR S., SOYDUGAN F., et al.
2015MNRAS.452.1045F 40           X         1 21 27 The SLUGGS survey: inferring the formation epochs of metal-poor and metal-rich globular clusters. FORBES D.A., PASTORELLO N., ROMANOWSKY A.J., et al.
2016A&A...590A..64S 48           X         1 2 16 On the red giant branch mass loss in 47 Tucanae: Constraints from the horizontal branch morphology. SALARIS M., CASSISI S. and PIETRINFERNI A.
2017MNRAS.468..645B 4264 T   A D S   X C F     102 14 13 The age of 47 Tuc from self-consistent isochrone fits to colour-magnitude diagrams and the eclipsing member
V69. 		BROGAARD K., VANDENBERG D.A., BEDIN L.R., et al.
2017MNRAS.471..857F 42           X         1 45 85 Long-term observations of the pulsars in 47 Tucanae - II. Proper motions, accelerations and jerks. FREIRE P.C.C., RIDOLFI A., KRAMER M., et al.
2017ApJ...849..159D 162           X         4 36 17 Constraints on the distance moduli, helium, and metal abundances, and ages of globular clusters from their RR Lyrae and non-variable horizontal branch stars. II. Multiple stellar populations in 47 Tuc, M3, and M13. DENISSENKOV P.A., VANDENBERG D.A., KOPACKI G., et al.
2015ASPC..496..164S viz 16       D               1 196 98 DEBCat: A Catalog of Detached Eclipsing Binary Stars. SOUTHWORTH J.
2018MNRAS.476..496F 536           X C F     11 11 17 New PARSEC data base of α-enhanced stellar evolutionary tracks and isochrones - I. Calibration with 47 Tuc (NGC 104) and the improvement on RGB bump. FU X., BRESSAN A., MARIGO P., et al.
2018MNRAS.476.3729B 45           X         1 14 67 Establishing the accuracy of asteroseismic mass and radius estimates of giant stars - I. Three eclipsing systems at [Fe/H] ∼ -0.3 and the need for a large high-precision sample. BROGAARD K., HANSEN C.J., MIGLIO A., et al.
2018ApJ...862...72V 41           X         1 53 6 Constraints on the distance moduli, helium and metal abundances, and ages of globular clusters from their RR Lyrae and non-variable horizontal-branch stars. III. M55 and NGC 6362. VANDENBERG D.A. and DENISSENKOV P.A.
2018MNRAS.479.5491E viz 16       D               2 301 126 Interrelated main-sequence mass-luminosity, mass-radius, and mass-effective temperature relations. EKER Z., BAKIS V., BILIR S., et al.
2020MNRAS.492.4254T 2469   K A D S   X C       57 8 ~ The Cluster AgeS Experiment (CASE) - VIII. Age and distance of the Globular Cluster 47 Tuc from the analysis of two detached eclipsing binaries. THOMPSON I.B., UDALSKI A., DOTTER A., et al.
2020ApJ...904..112B 128           X         3 9 ~ Hubble Space Telescope astrometry of the metal-poor visual binary µ Cassiopeiae: dynamical masses, helium content, and age. BOND H.E., SCHAEFER G.H., GILLILAND R.L., et al.
2022MNRAS.509.4208V 358           X C F     6 16 4 Models for metal-poor stars with different initial abundances of C, N, O, Mg, and Si. II. Application to the colour-magnitude diagrams of the globular clusters 47 Tuc, NGC 6362, M 5, M 3, M 55, and M92. VANDENBERG D.A., CASAGRANDE L. and EDVARDSSON B.
2023ApJ...950..135S 187           X         4 4 ~ The GeMS/GSAOI Galactic Globular Cluster Survey (G4CS). II. Characterization of 47 Tuc with Bayesian Statistics. SIMUNOVIC M., PUZIA T.H., MILLER B., et al.
2023MNRAS.518.4517V 93           X         2 15 2 Models for metal-poor stars with different initial abundances of C, N, O, Mg, and Si - III. Grids of isochrones for -2.5 ≤ [Fe/H] ≤ -0.5 and helium abundances Y = 0.25 and 0.29 at each metallicity. VANDENBERG D.A.

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