2022A&A...658A..29R

Query : 2022A&A...658A..29R

2022A&A...658A..29R - Astronomy and Astrophysics, volume 658A, 29-29 (2022/2-1)

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., ANDERSON R.I., FREUDLING W., KUDRITZKI R.-P., MACRI L., MUCCIARELLI A. and YUAN W.

Abstract (from CDS):


Context. Classical Cepheids are primary distance indicators and a crucial stepping stone in determining the present-day value of the Hubble constant H0 to the precision and accuracy required to constrain apparent deviations from the ΛCDM Concordance Cosmological Model.
Aims. We measured the iron and oxygen abundances of a statistically significant sample of 89 Cepheids in the Large Magellanic Cloud (LMC), one of the anchors of the local distance scale, quadrupling the prior sample and including 68 of the 70 Cepheids used to constrain H0 by the SH0ES program. The goal is to constrain the extent to which the luminosity of Cepheids is influenced by their chemical composition, which is an important contributor to the uncertainty on the determination of the Hubble constant itself and a critical factor in the internal consistency of the distance ladder.
Methods. We derived stellar parameters and chemical abundances from a self-consistent spectroscopic analysis based on equivalent width of absorption lines.
Results. The iron distribution of Cepheids in the LMC can be very accurately described by a single Gaussian with a mean [Fe/H] = -0.409±0.003 dex and σ = 0.076±0.003 dex. We estimate a systematic uncertainty on the absolute mean values of 0.1 dex. The width of the distribution is fully compatible with the measurement error and supports the low dispersion of 0.069 mag seen in the near-infrared Hubble Space Telescope LMC period-luminosity relation. The uniformity of the abundance has the important consequence that the LMC Cepheids alone cannot provide any meaningful constraint on the dependence of the Cepheid period-luminosity relation on chemical composition at any wavelength. This revises a prior claim based on a small sample of 22 LMC Cepheids that there was little dependence (or uncertainty) between composition and near-infrared luminosity, a conclusion which would produce an apparent conflict between anchors of the distance ladder with different mean abundance. The chemical homogeneity of the LMC Cepheid population makes it an ideal environment in which to calibrate the metallicity dependence between the more metal-poor Small Magellanic Cloud and metal-rich Milky Way and NGC 4258.

Abstract Copyright: © ESO 2022

Journal keyword(s): techniques: spectroscopic - stars: variables: Cepheids - Magellanic Clouds - dark energy - distance scale

VizieR on-line data: <Available at CDS (J/A+A/658/A29): table1.dat-table8.dat tablea1.dat appenb/*>

Errata: erratum vol. 662, art. C1 (2022)

Simbad objects: 72

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Number of rows : 72
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 NAME SMC G 00 52 38.0 -72 48 01   2.79 2.2     ~ 11145 1
2 NAME Magellanic Clouds GrG 03 00 -71.0           ~ 7062 0
3 SV* HV 875 cC* 04 56 27.5168262672 -69 22 46.772251788   13.58 13.131 12.58 12.208 ~ 36 0
4 SV* HV 878 cC* 04 57 51.0483921048 -69 57 29.683493100   13.40 13.623 13.62 12.693 ~ 47 0
5 SV* HV 879 cC* 04 58 05.5960382376 -69 27 15.480133020   14.72 13.457 13.01 12.299 ~ 61 0
6 HD 268878 cC* 04 58 10.7956592640 -69 56 58.781211396   13.83 13.134 12.96 12.005 K5 75 0
7 SV* HV 881 cC* 04 58 32.8016229936 -70 20 45.716108784   13.26 13.175 12.61 12.156 ~ 43 0
8 SV* HV 2262 cC* 04 58 47.0741612976 -70 03 41.676108480   15.04 14.414 13.78 13.349 ~ 25 0
9 SV* HV 882 cC* 04 59 41.1459522048 -69 27 21.932769276   13.48 13.470 12.90 12.382 ~ 40 0
10 OGLE LMC-CEP-594 cC* 04 59 45.0881594664 -69 29 35.512697832     15.279   14.352 ~ 14 0
11 SV* HV 2270 cC* 05 00 48.3654876648 -69 31 54.641073180   15.50 14.740 14.11 13.675 ~ 29 0
12 SV* HV 2282 cC* 05 01 24.9394462656 -70 04 18.287395644   15.10 14.446 13.95 13.350 ~ 31 0
13 SV* HV 885 cC* 05 01 54.6022664016 -68 54 14.283411264   14.31 13.771 13.08 12.862 ~ 25 0
14 SV* BV 903 cC* 05 02 00.9758478480 -68 55 22.130844636   15.70 14.958 14.36 13.895 ~ 20 0
15 SV* HV 887 cC* 05 02 10.2713664432 -69 32 23.708577804   14.84 14.208 13.62 13.231 ~ 29 0
16 OGLE LMC-CEP-757 cC* 05 02 31.0671738696 -69 23 49.440039900     15.153   14.214 ~ 11 0
17 SV* HV 2280 cC* 05 02 51.5613694680 -68 47 05.190635112   15.52 14.698 14.23 13.757 ~ 22 0
18 SV* HV 2288 cC* 05 03 09.0906056736 -69 13 23.991533544     14.243   13.186 ~ 19 0
19 OGLE LMC-CEP-798 cC* 05 03 23.6612997504 -69 00 03.123174456   15.60 14.891 14.30 13.860 ~ 18 0
20 SV* HV 2285 cC* 05 03 25.0750470744 -68 46 20.900735400   15.10 14.541 13.92 13.584 ~ 19 0
21 OGLE LMC-CEP-812 cC* 05 03 37.9689800400 -69 03 46.939883076   15.31 14.670 14.10 13.691 ~ 19 0
22 SV* HV 2291 cC* 05 03 46.1840714736 -68 52 36.292197792   14.99 14.162 13.78 13.013 ~ 29 0
23 SV* HV 889 cC* 05 03 49.5107414688 -68 56 02.585788188   14.18 13.770 13.56 12.714 ~ 40 0
24 SV* HV 2296 cC* 05 03 57.2785115976 -68 50 24.131781132   15.40 14.761 14.22 13.827 ~ 20 0
25 SV* HV 891 cC* 05 04 15.4957502664 -69 01 36.095442564   14.47 13.967 13.34 13.010 ~ 24 0
26 OGLE LMC-CEP-847 cC* 05 04 19.6462510944 -68 55 48.912149640   15.14 14.437 13.82 13.317 ~ 15 0
27 SV* HV 892 cC* 05 04 21.0829292064 -68 43 42.784679496   15.10 14.262 13.98 13.341 ~ 27 0
28 OGLE LMC-CEP-888 cC* 05 05 16.0537365216 -68 43 24.471165828     14.889   13.960 ~ 14 0
29 SV* HV 2309 cC* 05 05 41.9753378280 -68 51 05.193082944   15.68 15.125 14.55 14.216 ~ 19 0
30 OGLE LMC-CEP-936 cC* 05 06 01.1419404720 -68 37 38.574293448   15.72 15.046 14.48 14.101 ~ 18 0
31 SV* HV 895 cC* 05 06 16.8947257152 -68 40 33.776987628   15.40 14.519 13.97 13.549 ~ 22 0
32 HD 269075 cC* 05 06 47.9715275784 -70 02 13.295472684   13.30 12.944 12.77 11.861 M 70 0
33 SV* HV 2321 cC* 05 06 52.8486104712 -68 43 25.050232128   15.66 14.727 14.20 13.691 ~ 21 0
34 SV* HV 2319 cC* 05 06 52.9727265936 -68 39 35.586250848   14.45 14.369 13.36 13.249 ~ 23 0
35 SV* HV 898 cC* 05 06 58.2855708408 -68 36 41.043385548     14.628   13.617 ~ 19 0
36 OGLE LMC-CEP-978 cC* 05 06 59.7055212240 -68 43 26.218277688     14.855   13.817 ~ 16 0
37 SV* HV 899 cC* 05 07 07.8256721256 -68 53 19.448617524   13.50 13.471 12.83 12.403 ~ 56 0
38 V* TT Dor cC* 05 07 15.9874249008 -68 53 00.546014400   12.48 12.305 10.37 11.297 ~ 21 0
39 SV* HV 2324 cC* 05 07 21.6931078392 -68 20 18.345986988   15.23 14.464 13.90 13.447 ~ 34 0
40 SV* HV 901 cC* 05 07 42.1400471544 -69 14 48.106043736   15.47 14.455 13.84 13.348 ~ 27 0
41 SV* HV 904 cC* 05 08 18.2386417176 -68 46 47.058274920   14.42 13.564 13.45 12.452 ~ 36 0
42 OGLE LMC-CEP-1080 cC* 05 08 43.9704149448 -68 45 27.894793032   14.48 14.135 13.52 13.061 ~ 24 0
43 SV* HV 905 cC* 05 09 15.9284230344 -68 44 29.529329028   15.06 14.520 13.99 13.592 ~ 34 0
44 SV* HV 2335 cC* 05 09 18.3425297592 -68 17 58.420579956     14.713   13.907 ~ 16 0
45 SV* HV 2392 cC* 05 14 19.4042895048 -69 29 24.336151548     15.128   14.278 ~ 16 0
46 OGLE LMC-CEP-1374 cC* 05 15 25.7357924904 -69 20 27.404427300   16.048 15.386   14.438 ~ 15 0
47 SV* HV 920 cC* 05 15 38.3713773432 -69 15 19.761958944   15.30 14.965 14.41 14.139 ~ 19 0
48 OGLE LMC-CEP-1411 cC* 05 15 58.0373201904 -69 42 43.545331260   16.015 15.324   14.324 ~ 14 0
49 SV* HV 2414 cC* 05 16 00.2261438976 -69 32 17.519526132   15.664 14.879   13.954 ~ 17 0
50 OGLE LMC-CEP-1424 cC* 05 16 03.8581512000 -69 14 52.406107368   16.42 15.663 15.19 14.622 ~ 16 0
51 SV* HV 923 cC* 05 16 09.8639785608 -69 32 39.567316884   15.569 14.829   13.841 ~ 19 0
52 SV* HV 927 cC* 05 16 54.9057817896 -69 19 50.425269888   15.739 15.098   14.171 ~ 19 0
53 OGLE LMC-CEP-1466 cC* 05 16 58.6644596472 -69 23 38.051638728   16.346 15.581   14.607 ~ 17 0
54 SV* HV 2426 cC* 05 17 24.7425150336 -69 20 57.667688484   15.192 14.690   13.876 ~ 21 0
55 SV* HV 2438 cC* 05 18 03.7905507048 -69 25 35.990699088   15.98 15.147 14.75 14.287 ~ 18 0
56 OGLE LMC-CEP-1539 cC* 05 18 22.1199232632 -69 21 47.336646456     14.636   13.620 ~ 21 0
57 SV* HV 932 cC* 05 19 14.7998129232 -69 36 18.144066456   15.03 14.329 13.85 13.379 ~ 29 0
58 SV* HV 2453 cC* 05 19 27.7802354832 -69 30 30.292750764   15.11 14.151 13.44 12.959 ~ 22 0
59 SV* HV 933 cC* 05 19 59.9420351136 -69 10 25.476204180   15.757 14.894   13.693 ~ 16 0
60 SV* HV 5761 cC* 05 20 23.0043537696 -69 02 17.534019732   13.83 13.337 11.47 12.251 ~ 21 0
61 SV* HV 2463 cC* 05 20 28.6368227016 -69 01 31.818683640   14.99 14.180 13.81 13.272 ~ 19 0
62 SV* HV 2466 cC* 05 20 37.3920597576 -69 30 56.646062820   15.61 14.833 14.41 13.957 ~ 19 0
63 SV* HV 938 cC* 05 21 12.4568776852 -69 03 07.578127403   14.01 13.717 12.91 12.716 ~ 19 0
64 NAME LMC G 05 23 34.6 -69 45 22     0.4     ~ 17428 0
65 OGLE LMC-CEP-1862 cC* 05 24 13.4614664976 -69 30 01.700160660   15.74 14.868 14.37 13.763 ~ 16 0
66 SV* HV 5826 cC* 05 25 28.8142663368 -69 54 44.566866540   16.09 15.498 14.99 14.583 ~ 20 0
67 SV* HV 12037 cC* 05 25 29.2861081200 -69 55 12.668098188   16.38 15.642 14.94 14.538 ~ 19 0
68 SV* HV 960 cC* 05 26 22.5814193088 -69 36 07.457074776   15.353 14.779   13.946 ~ 16 0
69 OGLE LMC-CEP-2012 cC* 05 26 49.9980347040 -69 45 52.857388944     15.061   14.136 ~ 19 0
70 SV* HV 2540 cC* 05 26 55.8896763936 -69 58 48.789627708   14.611 13.615 13.28 12.581 ~ 21 0
71 OGLE LMC-CEP-2043 cC* 05 27 22.9584750960 -69 50 58.002114300   15.98 15.246 14.73 14.320 ~ 18 0
72 M 106 Sy2 12 18 57.620 +47 18 13.39   9.14 8.41 8.11   ~ 2364 3

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