Emulating power spectra for pre- and post-reconstructed galaxy samples

Abstract

The small-scale linear information in galaxy samples typically lost during non-linear growth can be restored to a certain level by the density field reconstruction, which has been demonstrated for improving the precision of the baryon acoustic oscillations (BAO) measurements. As proposed in the literature, a joint analysis of the power spectrum before and after the reconstruction enables an efficient extraction of information carried by high-order statistics. However, the statistics of the post-reconstruction density field are difficult to model. In this work, we circumvent this issue by developing an accurate emulator for the pre-reconstructed, post-reconstructed, and cross power spectra (P pre, P post, P cross) up to k=0.5~h~ Mpc-1 based on the Dark Quest N-body simulations. The accuracy of the emulator is at percent level, namely, the error of the emulated monopole and quadrupole of the power spectra is less than 1\% and 10\% of the ground truth, respectively. A fit to an example power spectra using the emulator shows that the constraints on cosmological parameters get largely improved using P pre+P post+P cross with k max=0.25~h~ Mpc-1, compared to that derived from P pre alone, namely, the constraints on (m, H0, σ8) are tightened by 41 \%-55\%, and the uncertainties of the derived BAO and RSD parameters (α, α||, fσ8) shrink by 28\%-54\%, respectively. This highlights the complementarity among P pre, P post and P cross, which demonstrates the efficiency and practicability of a joint P pre, P post and P cross analysis for cosmological implications.

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