The first direct imaging of the silhouette of a damped Lyman α system along the line-of-sight to a background galaxy

Abstract

The H~ i gas distribution in damped Lyman α absorbers (DLAs) has remained elusive due to the point-source nature of background quasar emission. Observing DLAs against spatially extended background galaxies provides a new method for constraining their size and structure. Using the Keck Cosmic Web Imager, we present the first ``silhouette'' image of a DLA at z=3.34, identified in the spectrum of a background galaxy at z=3.61. Although the silhouette remains unresolved due to limited spatial resolution, this represents a successful proof-of-concept for studying DLA morphology using extended background sources. Possible residual emission in the DLA trough suggests an optical depth contrast exceeding 107 in the internal structure, implying a sharp edge or patchy structure. A Lyman α emitter (LAE) at z LAE=3.34330.0005, consistent with the DLA redshift, is detected at an angular separation of 1.''730.''28 (12.92.1 kpc). The DLA is surrounded by three galaxies within 140 kpc in projected distance and 500 km s-1 in line-of-sight velocity, indicating that it resides in the circumgalactic medium of the LAE or within a galaxy group/protocluster environment. An O~ i λ1302 absorption at z OI=3.32880.0004 is also detected along the line of sight. This absorber may trace metal-enriched outflow from the LAE or a gas-rich galaxy exhibiting the highest star formation activity among the surrounding galaxies. Future large spectroscopic surveys of galaxies will expand such a DLA sample, and three-dimensional spectroscopy for it will shed new light on the role of intergalactic dense gas in galaxy formation and evolution.