SV* HV 2282 , the SIMBAD biblio

SV* HV 2282 , the SIMBAD biblio (31 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.02.22CET02:08:10


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Title First 3 Authors
1984A&AS...56..169W 176 17 Photometry of Cepheid variables in the Large Magellanic Cloud. WAYMAN P.A., STIFT M.J. and BUTLER C.J.
1985MNRAS.212..395D 118 11 Period change in Magellanic Cloud Cepheids. DEASY H.P. and WAYMAN P.A.
1990PASJ...42..341S 30 3 Evolutionary period changes of classical Cepheids in the LMC. SAITOU M. and TAKEUTI M.
2002ApJS..142...71S viz 15       D               616 36 The cepheid period-luminosity relation in the Large Magellanic Cloud. SEBO K.M., RAWSON D., MOULD J., et al.
2004AJ....128.2239P viz 93 212 New cepheid period-luminosity relations for the Large Magellanic Cloud: 92 near-infrared light curves. PERSSON S.E., MADORE B.F., KRZEMINSKI W., et al.
2008ApJ...679...71F viz 15       D               1 71 34 The Cepheid period-luminosity relation at mid-infrared wavelengths. I. First-epoch LMC data. FREEDMAN W.L., MADORE B.F., RIGBY J., et al.
2009ApJ...695..988M 15       D               2 74 26 The Cepheid period-luminosity relation (The Leavitt law) at mid-infrared wavelengths. II. Second-epoch LMC data. MADORE B.F., FREEDMAN W.L., RIGBY J., et al.
2008AcA....58..163S viz 15       D               1 3398 282 The Optical Gravitational Lensing Experiment. The OGLE-III catalog of variable stars. I. Classical Cepheids in the Large Magellanic Cloud. SOSZYNSKI I., POLESKI R., UDALSKI A., et al.
2008AcA....58..313P viz 15       D               1 2950 15 Period changes of LMC Cepheids in the OGLE and MACHO Data. POLESKI R.
2011A&A...534A..95S viz 170       D   O X C       4 43 108 Calibrating the Cepheid period-luminosity relation from the infrared surface brightness technique. II. The effect of metallicity and the distance to the LMC'. STORM J., GIEREN W., FOUQUE P., et al.
2011ApJ...743...76S viz 15       D               1 91 47 The Carnegie Hubble Program: the Leavitt law at 3.6 µm and 4.5 µm in the Large Magellanic Cloud. SCOWCROFT V., FREEDMAN W.L., MADORE B.F., et al.
2012ApJ...748..107P viz 15       D               1 291 30 A global physical model for cepheids. PEJCHA O. and KOCHANEK C.S.
2012MNRAS.421.2998F viz       D           *   2 56 20 The Cepheid distance to the Local Group galaxy NGC 6822. FEAST M.W., WHITELOCK P.A., MENZIES J.W., et al.
2012MNRAS.426.3148S 15       D               1 85 6 Binarity among Cepheids in the Magellanic Clouds. SZABADOS L. and NEHEZ D.
2013A&A...550A..70G viz 16       D               2 201 45 Baade-Wesselink distances to Galactic and Magellanic Cloud Cepheids and the effect of metallicity. GROENEWEGEN M.A.T.
2015MNRAS.447.3342B viz 16       D               5 2329 21 On the variation of Fourier parameters for Galactic and LMC Cepheids at optical, near-infrared and mid-infrared wavelengths. BHARDWAJ A., KANBUR S.M., SINGH H.P., et al.
2015AJ....149..117M viz 16       D               2 1486 89 Large Magellanic Cloud near-infrared synoptic survey. I. Cepheid variables and the calibration of the Leavitt Law. MACRI L.M., NGEOW C.-C., KANBUR S.M., et al.
2015A&A...576A..30I viz 16       D               1 289 30 New NIR light-curve templates for classical Cepheids. INNO L., MATSUNAGA N., ROMANIELLO M., et al.
2016MNRAS.459.1170S viz 16       D               1 219 6 The Carnegie Chicago Hubble Program: the mid-infrared colours of Cepheids and the effect of metallicity on the CO band-head at 4.6µm. SCOWCROFT V., SEIBERT M., FREEDMAN W.L., et al.
2016ApJ...832..176I viz 16       D               1 3931 41 The panchromatic view of the Magellanic Clouds from classical Cepheids. I. Distance, reddening, and geometry of the Large Magellanic Cloud disk. INNO L., BONO G., MATSUNAGA N., et al.
2017A&A...608A..18G 203         O X C       4 47 13 Observational calibration of the projection factor of Cepheids. IV. Period-projection factor relation of Galactic and Magellanic Cloud Cepheids. GALLENNE A., KERVELLA P., MERAND A., et al.
2015AcA....65..297S viz 16       D               1 9695 105 The OGLE Collection of Variable Stars. Classical Cepheids in the Magellanic System. SOSZYNSKI I., UDALSKI A., SZYMANSKI M.K., et al.
2019A&A...622A..60C viz 17       D               1 150347 194 Gaia Data Release 2. Specific characterisation and validation of all-sky Cepheids and RR Lyrae stars. CLEMENTINI G., RIPEPI V., MOLINARO R., et al.
2019MNRAS.485..961J viz 17       D               1 814 116 The ASAS-SN catalogue of variable stars III: variables in the southern TESS continuous viewing zone. JAYASINGHE T., STANEK K.Z., KOCHANEK C.S., et al.
2019ApJ...876...85R viz 37       D               1 75 1556 Large Magellanic Cloud Cepheid standards provide a 1% foundation for the determination of the Hubble constant and stronger evidence for physics beyond ΛCDM. RIESS A.G., CASERTANO S., YUAN W., et al.
2019ApJ...883...58D viz 17       D               1 1719 29 Into the darkness: classical and Type II Cepheids in the zona galactica incognita. DEKANY I., HAJDU G., GREBEL E.K., et al.
2020MNRAS.491.4752B viz 17       D               1 13884 ~ When a period is not a full stop: Light-curve structure reveals fundamental parameters of Cepheid and RR Lyrae stars. BELLINGER E.P., KANBUR S.M., BHARDWAJ A., et al.
2020AJ....160..120J viz 17       D               1 365761 238 APOGEE data and spectral analysis from SDSS Data Release 16: seven years of observations including first results from APOGEE-South. JONSSON H., HOLTZMAN J.A., ALLENDE PRIETO C., et al.
2021MNRAS.500..817C viz 17       D               1 5050 ~ The mid-infrared Leavitt law for classical Cepheids in the Magellanic Clouds. CHOWN A.H., SCOWCROFT V. and WUYTS S.
2021ApJ...913...38B viz 17       D               1 2043 32 The influence of metallicity on the Leavitt law from geometrical distances of Milky Way and Magellanic Cloud Cepheids. BREUVAL L., KERVELLA P., WIELGORSKI P., et al.
2022A&A...658A..29R viz 18       D               1 72 23 The iron and oxygen content of LMC Classical Cepheids and its implications for the extragalactic distance scale and Hubble constant. Equivalent width analysis with Kurucz stellar atmosphere models. ROMANIELLO M., RIESS A., MANCINO S., et al.

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