The FLASHES Survey I: Integral Field Spectroscopy of the CGM around 48 z=2.3-3.1 QSOs

Abstract

We present the pilot study component of the Fluorescent Lyman-Alpha Structures in High-z Environments (FLASHES) Survey; the largest integral-field spectroscopy survey to date of the circumgalactic medium at z=2.3-3.1. We observed 48 quasar fields between 2015 and 2018 with the Palomar Cosmic Web Imager (Matuszewski et al. 2010). Extended HI Lyman-α emission is discovered around 42/48 of the observed quasars, ranging in projected, flux-weighted radius from 21-71 proper kiloparsecs (pkpc), with 26 nebulae exceeding 100~pkpc in effective diameter. The circularly averaged surface brightness radial profile peaks at a maximum of 1× 10-17~erg~s-1~cm-2~arcsec-2 (2×10-15~erg~s-1~cm-2~arcsec-2 adjusted for cosmological dimming) and luminosities range from 1.9×1043~erg~s-1 to -14.1×1043~erg~s-1. The emission appears to have a highly eccentric morphology and a maximum covering factor of 50\% (60\% for giant nebulae). On average, the nebular spectra are red-shifted with respect to both the systemic redshift and Lyα peak of the quasar spectrum. The integrated spectra of the nebulae mostly have single or double-peaked line shapes with global dispersions ranging from 167~km~s-1 to 690~km~s-1, though the individual (Gaussian) components of lines with complex shapes mostly appear to have dispersions ≤ 400 km~s-1, and the flux-weighted velocity centroids of the lines vary by thousands of km~s-1 with respect to the systemic QSO redshifts. Finally, the root-mean-square velocities of the nebulae are found to be consistent with gravitational motions expected in dark matter halos of mass Mh 1012.5 M. We compare these results to existing surveys at both higher and lower redshift.