Probing the Diffuse Lyman-alpha Emission on Cosmological Scales:
Ly\alpha Emission Intensity Mapping Using the Complete SDSS-IV eBOSS Survey
X. Lin, Z. Zheng, and Z. Cai. (2022)cite arxiv:2207.10682Comment: Accepted for Publication in ApJS; 21 pages, 15 figures, 2 tables.
Abstract
Based on the Sloan Digital Sky Survey Data Release 16, we have detected the
large-scale structure of Ly$\alpha$ emission in the Universe at redshifts $z =
2$--3.5 by cross-correlating quasar positions and Ly$\alpha$ emission imprinted
in the residual spectra of luminous red galaxies. We apply an analytical model
to fit the corresponding Ly$\alpha$ surface brightness profile and multipoles
of the redshift-space quasar-Ly$\alpha$ emission cross-correlation function.
The model suggests an average cosmic Ly$\alpha$ luminosity density of
$6.6_-3.1^+3.310^40 erg\, s^-1 cMpc^-3$, a $\sim
2\sigma$ detection with a median value about 8--9 times those estimated from
deep narrowband surveys of Ly$\alpha$ emitters at similar redshifts. Although
the low signal-to-noise ratio prevents us from a significant detection of the
Ly$\alpha$ forest-Ly$\alpha$ emission cross-correlation, the measurement is
consistent with the prediction of our best-fit model from quasar-Ly$\alpha$
emission cross-correlation within current uncertainties. We rule out the
scenario that these Ly$\alpha$ photons mainly originate from quasars. We find
that Ly$\alpha$ emission from star-forming galaxies, including contributions
from that concentrated around the galaxy centers and that in the diffuse
Ly$\alpha$ emitting halos, is able to explain the bulk of the the Ly$\alpha$
luminosity density inferred from our measurements. Ongoing and future surveys
can further improve the measurements and advance our understanding of the
cosmic Ly$\alpha$ emission field.
Description
Probing the Diffuse Lyman-alpha Emission on Cosmological Scales: Ly{\alpha} Emission Intensity Mapping Using the Complete SDSS-IV eBOSS Survey
%0 Generic
%1 lin2022probing
%A Lin, Xiaojing
%A Zheng, Zheng
%A Cai, Zheng
%D 2022
%K library
%T Probing the Diffuse Lyman-alpha Emission on Cosmological Scales:
Ly\alpha Emission Intensity Mapping Using the Complete SDSS-IV eBOSS Survey
%U http://arxiv.org/abs/2207.10682
%X Based on the Sloan Digital Sky Survey Data Release 16, we have detected the
large-scale structure of Ly$\alpha$ emission in the Universe at redshifts $z =
2$--3.5 by cross-correlating quasar positions and Ly$\alpha$ emission imprinted
in the residual spectra of luminous red galaxies. We apply an analytical model
to fit the corresponding Ly$\alpha$ surface brightness profile and multipoles
of the redshift-space quasar-Ly$\alpha$ emission cross-correlation function.
The model suggests an average cosmic Ly$\alpha$ luminosity density of
$6.6_-3.1^+3.310^40 erg\, s^-1 cMpc^-3$, a $\sim
2\sigma$ detection with a median value about 8--9 times those estimated from
deep narrowband surveys of Ly$\alpha$ emitters at similar redshifts. Although
the low signal-to-noise ratio prevents us from a significant detection of the
Ly$\alpha$ forest-Ly$\alpha$ emission cross-correlation, the measurement is
consistent with the prediction of our best-fit model from quasar-Ly$\alpha$
emission cross-correlation within current uncertainties. We rule out the
scenario that these Ly$\alpha$ photons mainly originate from quasars. We find
that Ly$\alpha$ emission from star-forming galaxies, including contributions
from that concentrated around the galaxy centers and that in the diffuse
Ly$\alpha$ emitting halos, is able to explain the bulk of the the Ly$\alpha$
luminosity density inferred from our measurements. Ongoing and future surveys
can further improve the measurements and advance our understanding of the
cosmic Ly$\alpha$ emission field.
@misc{lin2022probing,
abstract = {Based on the Sloan Digital Sky Survey Data Release 16, we have detected the
large-scale structure of Ly$\alpha$ emission in the Universe at redshifts $z =
2$--3.5 by cross-correlating quasar positions and Ly$\alpha$ emission imprinted
in the residual spectra of luminous red galaxies. We apply an analytical model
to fit the corresponding Ly$\alpha$ surface brightness profile and multipoles
of the redshift-space quasar-Ly$\alpha$ emission cross-correlation function.
The model suggests an average cosmic Ly$\alpha$ luminosity density of
${6.6_{-3.1}^{+3.3}}\times 10^{40} {\rm erg\, s^{-1} cMpc^{-3}}$, a $\sim
2\sigma$ detection with a median value about 8--9 times those estimated from
deep narrowband surveys of Ly$\alpha$ emitters at similar redshifts. Although
the low signal-to-noise ratio prevents us from a significant detection of the
Ly$\alpha$ forest-Ly$\alpha$ emission cross-correlation, the measurement is
consistent with the prediction of our best-fit model from quasar-Ly$\alpha$
emission cross-correlation within current uncertainties. We rule out the
scenario that these Ly$\alpha$ photons mainly originate from quasars. We find
that Ly$\alpha$ emission from star-forming galaxies, including contributions
from that concentrated around the galaxy centers and that in the diffuse
Ly$\alpha$ emitting halos, is able to explain the bulk of the the Ly$\alpha$
luminosity density inferred from our measurements. Ongoing and future surveys
can further improve the measurements and advance our understanding of the
cosmic Ly$\alpha$ emission field.},
added-at = {2022-07-25T10:54:17.000+0200},
author = {Lin, Xiaojing and Zheng, Zheng and Cai, Zheng},
biburl = {https://www.bibsonomy.org/bibtex/26f8c61e8b44a2369a49627a1c1641567/gpkulkarni},
description = {Probing the Diffuse Lyman-alpha Emission on Cosmological Scales: Ly{\alpha} Emission Intensity Mapping Using the Complete SDSS-IV eBOSS Survey},
interhash = {1312b8f816882790defea732797a360e},
intrahash = {6f8c61e8b44a2369a49627a1c1641567},
keywords = {library},
note = {cite arxiv:2207.10682Comment: Accepted for Publication in ApJS; 21 pages, 15 figures, 2 tables},
timestamp = {2022-07-25T10:54:17.000+0200},
title = {Probing the Diffuse Lyman-alpha Emission on Cosmological Scales:
Ly{\alpha} Emission Intensity Mapping Using the Complete SDSS-IV eBOSS Survey},
url = {http://arxiv.org/abs/2207.10682},
year = 2022
}