http://arxiv.org/abs/2301.05520
We present a smoothed density-corrected $V_{\rm max}$ technique for building a random catalog for property-dependent galaxy clustering estimation. This approach is essentially based on the density-corrected $V_{\rm max}$ method of Cole(2011), with three improvements to the original method. To validate the improved method, we generate two sets of flux-limited samples from two independent mock catalogs with different $k+e$ corrections. By comparing the two-point correlation functions, our results demonstrate that the random catalog created by the smoothed density-corrected $V_{\rm max}$ approach provides a more accurate and precise measurement for both sets of mock samples than the commonly used $V_{\rm max}$ method and redshift shuffled method. For flux-limited samples and color-dependent subsamples, the accuracy of the projected correlation function is well constrained within $1\%$ on the scale $0.07 h^{-1}\rm Mpc$ to $30 h^{-1}\rm Mpc$. The accuracy of the redshift-space correlation function is less than $2\%$ as well. Currently, it is the only approach that holds promise for achieving the high-accuracy goal of clustering measures for next-generation surveys.
L. Yang and Z. Li
Mon, 16 Jan 23
16/50
Comments: 19 pages, 12 figures. Accepted for publication in ApJ