Supernova type Ia luminosities, their dependence on second parameters, and the value of H0
Abstract
A sample of 35 SNe Ia with good to excellent photometry in B and V, minimum internal absorption, and 1200 < v < ≈ 30000 km/s is compiled from the literature. As far as their spectra are known they are all Branch-normal. For 29 of the SNe Ia also peak magnitudes in I are known. The SNe Ia have uniform colors at maximum, i.e. <B-V>=-0.012 mag (sigma=0.051) and <V-I>=-0.276 mag (sigma=0.078). In the Hubble diagram they define a Hubble line with a scatter of σM=0.21-0.16 mag, decreasing with wavelength. The scatter is further reduced if the SNe Ia are corrected for differences in decline rate Deltam15 or color (B-V). A combined correction reduces the scatter to sigma<=0.13 mag. After the correction no significant dependence remains on Hubble type or galactocentric distance. The Hubble line suggests some curvature which can be differently interpreted. A consistent solution is obtained for a cosmological model with OmegaM=0.3, OmegaLambda=0.7, which is indicated also by much more distant SNe Ia. Absolute magnitudes are available for eight equally blue (Branch-normal) SNe Ia in spirals, whose Cepheid distances are known. If their well defined mean values of MB, MV, and MI are used to fit the Hubble line to the above sample of SNe Ia one obtains H0=58.3 km/s/Mpc, or, after adjusting all SNe Ia to the average values of Deltam15 and (B-V), H0=60.9 km/s/Mpc. Various systematic errors are discussed whose elimination tends to decrease H0. The finally adopted value at the 90-percent level, including random and systematic errors, is H0=58.5 +/- 6.3 km/s/Mpc. Several higher values of H0 from SNe Ia, as suggested in the literature, are found to depend on large corrections for variations of the light curve parameter and/or on an unwarranted reduction of the Cepheid distances of the calibrating SNe Ia.
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