SIMBAD references

1997A&A...322..730T - Astronomy and Astrophysics, volume 322, 730-746 (1997/6-3)

Kinematics of the Local Universe. V. The value of H0 from the Tully-Fisher B and logD25 relations for field galaxies.


Abstract (from CDS):

We have studied the value of the Hubble constant using the KLUN (Kinematics of the Local Universe) sample of 5171 spiral galaxies having isophotal diameters D25 (and partially B-magnitudes), HI line widths, and radial velocities. The sample is diameter-limited, complete down to D25=1.6arcmin. As in the first similar study, where a much smaller magnitude-limited sample was used (Bottinelli et al. 1986), we pay special attention to the problem of Malmquist bias when photometric distances are derived by the Tully-Fisher diameter or magnitude relations. The bias is revealed and overcome by a more advanced version of the method of normalized distances, now taking into account, in addition to diameter and magnitude limits, also Hubble type effect, inclination effect, and variable galactic extinction. Calibration of the Tully-Fisher relations is primarily performed using a sample of 15 galaxies with available Cepheid distances, mostly from the HST programmes. This sample does not show significant trends with distance and is concluded to be closely distance-limited. Analysis of the logH0 vs. dnormalized diagrams allows us to identify the "unbiased plateaus" for both the diameter and magnitude TF distances. A useful tool here introduced is the theoretical expectation of the bias in cumulative <logH0> as a function of the fraction of the sample accepted for the plateau. An iterative approach is utilized for determining the TF relations, the plateau, and the value of H0 therefrom. Using the Peebles linear velocity field model with Virgo and our infall velocities equal to 980km/s and 150km/s, respectively, we derived the following values of H0: H0=53.4±5.0km/s/Mpc (Ngal=415) from the magnitude relation, and H0=56.7±4.9km/s/Mpc (Ngal=403) from the diameter relation. The given 1σ-errors refer to the statistical scatter around the adopted calibration, and the dispersion of the calibrator sample itself. These H0 values are not sensitive to reasonable changes in the kinematical parameters of the velocity field model, up to the extreme ones found in literature. This insensitivity is also expected from our numerical experiments. In the radial velocity space, the unbiased plateau extends up to about 6000km/s and the value of H0 is in good agreement with the SNIa results by Sandage et al. (1996, in press) which extend to still larger velocities. At present, the supernovae method and the KLUN TF-sample, both calibrated with Cepheid distances, provide complementary approaches to H0 in different, though overlapping, redshift ranges. As an additional result, the normalized distance method provides a natural way to estimate the Local Group infall velocity by minimizing the logH0 dispersion in the unbiased plateau. Using the diameter and the magnitude TF relations respectively, we obtained, as preliminary results, the following values: v0=225±45km/s, and v0=185±40km/s. These values are compatible with our standard value within 2 σ and agree particulary well with Sandage's preferred value v0=220km/s.

Abstract Copyright:

Journal keyword(s): galaxies: spiral - galaxies: distances and redshifts - cosmology: distance scale

Simbad objects: 56

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