Abstract
We compare Tully-Fisher (TF) data for 838 galaxies within cz = 3000 km s-1 from the Mark III catalog with the peculiar velocity and density fields predicted from the 1.2 Jy IRAS redshift survey. Our goal is to test the relation between the galaxy density and velocity fields predicted by gravitational instability theory and linear biasing, and thereby to estimate βI ≡ Ω0.6/bI, where bI is the linear bias parameter for IRAS galaxies on a 300 km s-1 scale. Adopting the IRAS velocity and density fields as a prior model, we maximize the likelihood of the raw TF observables, taking into account the full range of selection effects and properly treating triple-valued zones in the redshift-distance relation. This method is more general and correct than simply minimizing TF residuals with respect to the velocity field model. Extensive tests with realistic, simulated galaxy catalogs demonstrate that the method produces unbiased estimates of βI and its error. When we apply the method to the real data, we model the presence of a small but significant velocity quadrupole residual (~3.3% of Hubble flow), which we argue is due to density fluctuations incompletely sampled by IRAS. The method then yields a maximum likelihood estimate βI = 0.49 ± 0.07 (1 σ error). We discuss the constraints on Ω and biasing that follow from this estimate of βI if we assume a COBE-normalized, cold dark matter power spectrum. Our model also yields the one-dimensional noise in the velocity field, including IRAS prediction errors, which we find to be 125 ± 20 km s-1. We define a χ2-like statistic, χ, that measures the coherence of residuals between the TF data and the IRAS model. In contrast to maximum likelihood, this statistic can identify poor fits but is relatively insensitive to the best βI. As measured by χ, the IRAS model does not fit the data well without accounting for the residual quadrupole; when the quadrupole is added, the fit is acceptable for 0.3 ≤ βI ≤ 0.9. We discuss this in view of the Davis, Nusser, & Willick analysis that questions the consistency of the TF data and IRAS-predicted velocity field.
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.