Astrophys. J., 730, 119 (2011/April-1)
A 3% solution: determination of the Hubble constant with the Hubble Space Telescope and Wide Field Camera 3.
RIESS A.G., MACRI L., CASERTANO S., LAMPEITL H., FERGUSON H.C., FILIPPENKO A.V., JHA S.W., LI W., CHORNOCK R. and SILVERMAN J.M.
Abstract (from CDS):
We use the Wide Field Camera 3 (WFC3) on the Hubble Space Telescope (HST) to determine the Hubble constant from optical and infrared observations of over 600 Cepheid variables in the host galaxies of eight recent Type Ia supernovae (SNe Ia), providing the calibration for a magnitude-redshift relation based on 253 SNe Ia. Increased precision over past measurements of the Hubble constant comes from five improvements: (1) more than doubling the number of infrared observations of Cepheids in the nearby SN hosts; (2) increasing the sample size of ideal SN Ia calibrators from six to eight; (3) increasing by 20% the number of Cepheids with infrared observations in the megamaser host NGC 4258; (4) reducing the difference in the mean metallicity of the Cepheid comparison samples between NGC 4258 and the SN hosts from Δlog [O/H] = 0.08 to 0.05; and (5) calibrating all optical Cepheid colors with a single camera, WFC3, to remove cross-instrument zero-point errors. The result is a reduction in the uncertainty in H0 due to steps beyond the first rung of the distance ladder from 3.5% to 2.3%. The measurement of H 0 via the geometric distance to NGC 4258 is 74.8±3.1 km/s/Mpc, a 4.1% measurement including systematic uncertainties. Better precision independent of the distance to NGC 4258 comes from the use of two alternative Cepheid absolute calibrations: (1) 13 Milky Way Cepheids with trigonometric parallaxes measured with HST/fine guidance sensor and Hipparcos and (2) 92 Cepheids in the Large Magellanic Cloud for which multiple accurate and precise eclipsing binary distances are available, yielding 74.4±2.5 km/s/Mpc, a 3.4% uncertainty including systematics. Our best estimate uses all three calibrations but a larger uncertainty afforded from any two: H0= 73.8±2.4 km/s/Mpc including systematic errors, corresponding to a 3.3% uncertainty. The improved measurement of H0, when combined with the Wilkinson Microwave Anisotropy Probe (WMAP) 7 year data, results in a tighter constraint on the equation-of-state parameter of dark energy of w = -1.08±0.10. It also rules out the best-fitting gigaparsec-scale void models, posited as an alternative to dark energy. The combined H0+ WMAP results yield Neff= 4.2±0.7 for the number of relativistic particle species in the early universe, a low-significance excess for the value expected from the three known neutrino flavors.
cosmological parameters - dark energy - distance scale - galaxies: distances and redshifts - stars: variables: Cepheids - supernovae: general
VizieR on-line data:
<Available at CDS (J/ApJ/730/119): table2.dat>
errata vol. 732, art. 129 (2011) and vol. 752, art. 76 (2012)
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