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Abstract The GAMA J0913−0107 system is a rare conjunction of a submillimeter galaxy (SMG) atz≈ 2.7 and two background QSOs with projected separations <200 kpc. Previous high-resolution QSO absorption-line spectroscopy has revealed high Hicolumn density, extremely metal-poor (∼1% solar) gas streams in the circumgalactic medium of the SMG. Here we present deep optical integral-field spectroscopy of the system with the Keck Cosmic Web Imager (KCWI). Reaching a 2σsurface brightness limit ≈10−19erg s−1cm−2arcsec−2with ∼2 hr of integration time, we detect a filamentary Lyαnebula stretching ∼180 kpc from the SMG intercepting both QSO sightlines. This Lyαfilament may correspond to the same cool gas stream penetrating through the hot halo seen in the absorption. In contrast to Lyαnebulae around QSOs, there is no obvious local source for photoionization due to the massive dust content. While uncertain, we consider the possibility that the nebula is ionized by shocks induced by the infall, obscured star formation, and/or a boosted UV background. The SMG–QSOs conjunction multiplied the efficiency of the KCWI observations, allowing a direct comparison of Lyαnebulae in two distinct environments. We find that the nebulae around the QSOs are much brighter and show steeper surface brightness profiles than the SMG nebula. This is consistent with the additional photoionization and Lyαscattering provided by the QSOs. While illustrating the challenges of detecting Lyαnebulae around SMGs, our work also demonstrates that important insights can be gained from comparative studies of high-zLyαnebulae.
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Radiative Transfer in Lyα Nebulae. I. Modeling a Continuous or Clumpy Spherical Halo with a Central Source
Abstract To understand the mechanism behind high-zLyαnebulae, we simulate the scattering of Lyαin a Hihalo about a central Lyαsource. For the first time, we consider both smooth and clumpy distributions of halo gas, as well as a range of outflow speeds, total Hicolumn densities, Hispatial concentrations, and central source galaxies (e.g., with Lyαline widths corresponding to those typical of active galactic nucleus or star-forming galaxies). We compute the spatial-frequency diffusion and the polarization of the Lyαphotons scattered by atomic hydrogen. Our scattering-only model reproduces the typical size of Lyαnebulae (∼100 kpc) at total column densitiesNH I≥ 1020cm−2and predicts a range of positive, flat, and negative polarization radial gradients. We also find two general classes of Lyαnebula morphologies: with and without bright cores. Cores are seen whenNH Iis low, i.e., when the central source is directly visible, and are associated with a polarization jump, a steep increase in the polarization radial profile just outside the halo center. Of all the parameters tested in our smooth or clumpy medium model,NH Idominates the trends. The radial behaviors of the Lyαsurface brightness, spectral line shape, and polarization in the clumpy model with covering factorfc≳ 5 approach those of the smooth model at the sameNH I. A clumpy medium with highNH Iand lowfc≲ 2 generates Lyαfeatures via scattering that the smooth model cannot: a bright core, symmetric line profile, and polarization jump.
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- Award ID(s):
- 1715609
- PAR ID:
- 10400995
- Publisher / Repository:
- DOI PREFIX: 10.3847
- Date Published:
- Journal Name:
- The Astrophysical Journal
- Volume:
- 945
- Issue:
- 2
- ISSN:
- 0004-637X
- Format(s):
- Medium: X Size: Article No. 100
- Size(s):
- Article No. 100
- Sponsoring Org:
- National Science Foundation
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