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Nonlinear Redshift-Space Distortions in the Harmonic-space Galaxy Power Spectrum

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arxiv 2008.08706 v2 pith:DKFFKO5I submitted 2020-08-19 astro-ph.CO

Nonlinear Redshift-Space Distortions in the Harmonic-space Galaxy Power Spectrum

classification astro-ph.CO
keywords effectgalaxynonlinearpowerspectrumdeltafingers-of-godharmonic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Future high spectroscopic resolution galaxy surveys will observe galaxies with nearly full-sky footprints. Modeling the galaxy clustering for these surveys, therefore, must include the wide-angle effect with narrow redshift binning. In particular, when the redshift-bin size is comparable to the typical peculiar velocity field, the nonlinear redshift-space distortion (RSD) effect becomes important. A naive projection of the Fourier-space RSD model to spherical harmonic space leads to diverging expressions. In this paper we present a general formalism of projecting the higher-order RSD terms into spherical harmonic space. We show that the nonlinear RSD effect, including the fingers-of-God (FoG), can be entirely attributed to a modification of the radial window function. We find that while linear RSD enhances the harmonic-space power spectrum, unlike the three-dimensional case, the enhancement decreases on small angular-scales. The fingers-of-God suppress the angular power spectrum on all transverse scales if the bin size is smaller than $\Delta r \lesssim \pi \sigma_u$; for example, the radial bin sizes corresponding to a spectral resolution $R=\lambda/\Delta \lambda$ of a few hundred satisfy the condition. We also provide the flat-sky approximation which reproduces the full calculation to sub-percent accuracy.

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