HETDEX [OII] galaxies at z 0.48: Volume-limited samples and their power spectra

Abstract

The catalog from the Hobby-Eberly Telescope Dark Energy Experiment (HETDEX) Public Data Release 1 (PDR1) contains half a million emission-line-selected [OII] galaxies spread across 540~deg2 at z 0.48 from HETDEX's unprecedented untargeted spectroscopic survey. In this paper, we construct volume-limited samples from PDR1 in three luminosity bins across the two main fields: &#34;Spring'' and &#34;Fall''. The numbers of galaxies in the bins range from 11,354 to 64,794 and number densities, n (2-5)×10-3~h3~Mpc-3, are higher than those of typical cosmological spectroscopic surveys of emission-line galaxies by a factor of five to ten. The monopole and quadrupole power spectra derived from these samples are in excellent agreement with the mock power spectra from the Uchuu simulation based on a flat ΛCDM model and the cosmological parameters from the Planck cosmic microwave background data, at all wavenumbers used for the measurement (0.01<k<0.7~h~Mpc-1). We find that the power spectrum amplitudes are consistent with a characteristic dark matter halo mass of (M0~[h-1M]) 11.9-12.3, with the halo mass showing a weak dependence on [OII] luminosity, M0 La, increasing with a slope of a = 0.370.10. The best-fit mock suggests that approximately 13 percent of the [OII] galaxies in our sample reside in subhalos. The new, high-density tracers of the underlying matter distribution presented in this paper provide precise measurements of clustering in a low-redshift regime sensitive to the late-time growth of structures. These samples will form the basis for forthcoming analyses of the redshift-space distortion effect, galaxy-halo connection, and cross-correlations with external low-redshift probes.

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