We present a measurement of the DLA mean bias from the cross-correlation of
DLA and the Ly$\alpha$ forest, updating earlier results of Font-Ribera et al.
2012 with the final BOSS Data Release and an improved method to address
continuum fitting corrections. Our cross-correlation is well fitted by linear
theory with the standard $Łambda CDM$ model, with a DLA bias of $b_DLA =
1.990.11$; a more conservative analysis, which removes DLA in the Ly$\beta$
forest and uses only the cross-correlation at $r> 10h^-1\,Mpc$, yields
$b_DLA = 2.000.19$. This assumes the cosmological model from
Planck2015 and the Ly$\alpha$ forest bias factors of Bautista et al.
2017, and includes only statistical errors obtained from bootstrap analysis.
The main systematic errors arise from possible impurities and selection effects
in the DLA catalogue, and from uncertainties in the determination of the
Ly$\alpha$ forest bias factors and a correction for effects of high column
density absorbers. We find no dependence of the DLA bias on column density or
redshift. The measured bias value corresponds to a host halo mass $\sim
4\cdot10^11 M_ødot$ if all DLA were hosted in halos of a similar
mass. In a realistic model where host halos over a broad mass range have a DLA
cross section $\Sigma(M_h) M_h^\alpha$ down to $M_h > M_min
=10^8.5 M_ødot$, we find that $> 1$ is required to have
$b_DLA> 1.7$, implying a steeper relation or higher value of $M_\rm
min$ than is generally predicted in numerical simulations of galaxy formation.
Description
[1709.00889] The SDSS-DR12 large-scale cross-correlation of Damped Lyman Alpha Systems with the Lyman Alpha Forest
%0 Generic
%1 perezrafols2017sdssdr12
%A Pérez-Ràfols, Ignasi
%A Font-Ribera, Andreu
%A Miralda-Escudé, Jordi
%A Blomqvist, Michael
%A Bird, Simeon
%A Busca, Nicolás
%A du-Mas-des Bourboux, Hélion
%A Mas-Ribas, Lluís
%A Noterdaeme, Pasquier
%A Petitjean, Patrick
%A Rich, James
%A Schneider, Donald P.
%D 2017
%K bias dla forest lya
%T The SDSS-DR12 large-scale cross-correlation of Damped Lyman Alpha
Systems with the Lyman Alpha Forest
%U http://arxiv.org/abs/1709.00889
%X We present a measurement of the DLA mean bias from the cross-correlation of
DLA and the Ly$\alpha$ forest, updating earlier results of Font-Ribera et al.
2012 with the final BOSS Data Release and an improved method to address
continuum fitting corrections. Our cross-correlation is well fitted by linear
theory with the standard $Łambda CDM$ model, with a DLA bias of $b_DLA =
1.990.11$; a more conservative analysis, which removes DLA in the Ly$\beta$
forest and uses only the cross-correlation at $r> 10h^-1\,Mpc$, yields
$b_DLA = 2.000.19$. This assumes the cosmological model from
Planck2015 and the Ly$\alpha$ forest bias factors of Bautista et al.
2017, and includes only statistical errors obtained from bootstrap analysis.
The main systematic errors arise from possible impurities and selection effects
in the DLA catalogue, and from uncertainties in the determination of the
Ly$\alpha$ forest bias factors and a correction for effects of high column
density absorbers. We find no dependence of the DLA bias on column density or
redshift. The measured bias value corresponds to a host halo mass $\sim
4\cdot10^11 M_ødot$ if all DLA were hosted in halos of a similar
mass. In a realistic model where host halos over a broad mass range have a DLA
cross section $\Sigma(M_h) M_h^\alpha$ down to $M_h > M_min
=10^8.5 M_ødot$, we find that $> 1$ is required to have
$b_DLA> 1.7$, implying a steeper relation or higher value of $M_\rm
min$ than is generally predicted in numerical simulations of galaxy formation.
@misc{perezrafols2017sdssdr12,
abstract = {We present a measurement of the DLA mean bias from the cross-correlation of
DLA and the Ly$\alpha$ forest, updating earlier results of Font-Ribera et al.
2012 with the final BOSS Data Release and an improved method to address
continuum fitting corrections. Our cross-correlation is well fitted by linear
theory with the standard $\Lambda CDM$ model, with a DLA bias of $b_{\rm DLA} =
1.99\pm 0.11$; a more conservative analysis, which removes DLA in the Ly$\beta$
forest and uses only the cross-correlation at $r> 10{\rm h^{-1}\,Mpc}$, yields
$b_{\rm DLA} = 2.00\pm 0.19$. This assumes the cosmological model from
\cite{Planck2015} and the Ly$\alpha$ forest bias factors of Bautista et al.
2017, and includes only statistical errors obtained from bootstrap analysis.
The main systematic errors arise from possible impurities and selection effects
in the DLA catalogue, and from uncertainties in the determination of the
Ly$\alpha$ forest bias factors and a correction for effects of high column
density absorbers. We find no dependence of the DLA bias on column density or
redshift. The measured bias value corresponds to a host halo mass $\sim
4\cdot10^{11} {\rm M_{\odot}}$ if all DLA were hosted in halos of a similar
mass. In a realistic model where host halos over a broad mass range have a DLA
cross section $\Sigma(M_h) \propto M_h^{\alpha}$ down to $M_h > M_{\rm min}
=10^{8.5} {\rm M_{\odot}}$, we find that $\alpha > 1$ is required to have
$b_{\rm DLA}> 1.7$, implying a steeper relation or higher value of $M_{\rm
min}$ than is generally predicted in numerical simulations of galaxy formation.},
added-at = {2017-09-05T11:29:00.000+0200},
author = {Pérez-Ràfols, Ignasi and Font-Ribera, Andreu and Miralda-Escudé, Jordi and Blomqvist, Michael and Bird, Simeon and Busca, Nicolás and du-Mas-des Bourboux, Hélion and Mas-Ribas, Lluís and Noterdaeme, Pasquier and Petitjean, Patrick and Rich, James and Schneider, Donald P.},
biburl = {https://www.bibsonomy.org/bibtex/216d2306059500cef5443f2c21a70c3a8/miki},
description = {[1709.00889] The SDSS-DR12 large-scale cross-correlation of Damped Lyman Alpha Systems with the Lyman Alpha Forest},
interhash = {16518c40856fbe25c7d1683ecfe2d329},
intrahash = {16d2306059500cef5443f2c21a70c3a8},
keywords = {bias dla forest lya},
note = {cite arxiv:1709.00889Comment: submitted to MNRAS, 23 pages, 8 figures, 4 tables},
timestamp = {2017-09-05T11:29:00.000+0200},
title = {The SDSS-DR12 large-scale cross-correlation of Damped Lyman Alpha
Systems with the Lyman Alpha Forest},
url = {http://arxiv.org/abs/1709.00889},
year = 2017
}