On the interpretation of clustering from the angular APM Galaxy Survey
Abstract
We analyze the uncertainties in the amplitudes of the spatial correlation functions estimated from angular correlations in a sample from the APM Galaxy Survey, with bJ=17-20. We model the uncertainties in the selection function and in the evolution of clustering. In particular we estimate σ8APM, the rms galaxy number fluctuations in spheres of radius at 8 , from the measured angular variance in the APM. The uncertainty in σ8APM has three main contributions: 8\% from sampling and selection function uncertainties, 7\% from the uncertainty in the evolution of clustering and 3\% from the uncertainty in the value of 0. Including all these contributions, we find σ8APM is in the range 0.78-1.08. If the galaxy clustering in the APM evolves as expected from gravitational clustering of matter fluctuations, then σ8APM=0.95 0.07 (1.00 0.08) for 0 1 (0 0), close to the values for nearby optical samples. On the other hand, if we assume that clustering evolution is fixed in comoving coordinates σ8APM=0.83 0.05 (0.87 0.06), closer to the results for nearby IRAS samples. The final uncertainty in the range of values for the hierarchical amplitudes SJ J/2J-1 is typically twice the estimated sampling errors, with the highest values for the case of less clustering evolution. We compare our estimates with other results and discuss the implications for models of structure formation.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.