Measuring High-Order Moments of the Galaxy Distribution from Counts in Cells -- The Edgeworth Approximation

Abstract

To probe the weakly non-linear regime, past the point where simple linear theory is sufficient to describe the statistics of the density distribution, we measure the skewness (S3) and kurtosis (S4) of the Count Probability Distribution Function (CPDF) of the IRAS 1.2 Jy sample obtained from counts in cells. These quantities are free parameters in a maximum likelihood fit of an Edgeworth expansion convolved with a Poissonian to the observed CPDF. This method, applicable on scales greater than 5 Mpc, is appreciably less sensitive to the tail of the distribution than are measurements of S3 and S4 from moments of the CPDF. We measure S3 and S4 to l~50 h-1 Mpc; the data are consistent with scale invariance, yielding averages of <S3> = 2.83 +/- 0.09, and <S4> = 6.89 +/- 0.68. These values are higher than those found using the moments method on the same data set, <S3> = 1.5 +/- 0.5 and <S4> = 4.4 +/- 3.7, due to lack of correction in the latter work for finite-volume effects. Unlike the moments method, our results are quite robust to the fact that IRAS galaxies are under-represented in cluster cores. We use N-body simulations to show that our method yields unbiased results.

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