A VLT/MUSE galaxy survey towards QSO Q1410: looking for a WHIM traced by BLAs in inter-cluster filaments
Author
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Pessa, Ismael
Author
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Tejos, Nicolás
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Barrientos, Luis
Author
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Werk, Jessica
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Bielby, Richard
Author
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Padilla, Nelson
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Morris, Simón
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Prochaska, J.
Author
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López Morales, Sebastián
Author
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Hummels, Cameron
Admission date
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2018-08-27T16:03:57Z
Available date
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2018-08-27T16:03:57Z
Publication date
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2018
Cita de ítem
dc.identifier.citation
Monthly Notices of the Royal Astronomical Society 477(3):2991-3013, 2018
es_ES
Identifier
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0035-8711
Identifier
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10.1093/mnras/sty723
Identifier
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https://repositorio.uchile.cl/handle/2250/151282
Abstract
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Cosmological simulations predict that a significant fraction of the low-z baryon budget resides in large-scale filaments in the form of a diffuse plasma at temperatures T similar to 10(5)-10(7) K. However, direct observation of this so-called warm-hot intergalactic medium (WHIM) has been elusive. In the Lambda cold dark matter paradigm, galaxy clusters correspond to the nodes of the cosmic web at the intersection of several large-scale filamentary threads. In previous work, we used HST/COS data to conduct the first survey of broad HI Ly alpha absorbers (BLAs) potentially produced by WHIM in inter-cluster filaments. We targeted a single QSO, namely Q1410, whose sightline intersects seven independent inter-cluster axes at impact parameters <3Mpc (comoving), and found a tentative excess of a factor of similar to 4 with respect to the field. Here, we further investigate the origin of these BLAs by performing a blind galaxy survey within the Q1410 field using VLT/MUSE. We identified 77 sources and obtained the redshifts for 52 of them. Out of the total sample of seven BLAs in inter-cluster axes, we found three without any galaxy counterpart to stringent luminosity limits (similar to 4 x 10(8) L-circle dot similar to 0.01 L*), providing further evidence that these BLAs may represent genuine WHIM detections. We combined this sample with other suitable BLAs from the literature and inferred the corresponding baryon mean density for these filaments in the range Omega(fil)(bar) = 0.02-0.04. Our rough estimates are consistent with the predictions from numerical simulations but still subject to large systematic uncertainties, mostly from the adopted geometry, ionization corrections, and density profile