We present a new measurement of the optical Quasar Luminosity Function (QLF),
using data from the Sloan Digital Sky Survey-III: Baryon Oscillation
Spectroscopic Survey (SDSS-III: BOSS). From the SDSS-III Data Release Nine
(DR9), we select a uniform sample of 22,301 i<=21.8 quasars over an area of
2236 sq. deg with confirmed spectroscopic redshifts between 2.2<z<3.5, filling
in a key part of the luminosity-redshift plane for optical quasar studies. We
derive the completeness of the survey through simulated quasar photometry, and
check this completeness estimate using a sample of quasars selected by their
photometric variability within the BOSS footprint. We investigate the level of
systematics associated with our quasar sample using the simulations, in the
process generating color-redshift relations and a new quasar k-correction. We
probe the faint end of the QLF to M_i(z=2.2) = -24.5 and see a clear break in
the QLF at all redshifts up to z=3.5. We find that a log-linear relation (in
logPhi* - M*) for a luminosity and density evolution (LEDE) model adequately
describes our data within the range 2.2<z<3.5; across this interval the break
luminosity increases by a factor of ~2.3 while Phi* declines by a factor of ~6.
At z<2.2 our data is reasonably well fit by a pure luminosity evolution (PLE)
model. We see only a weak signature of ÄGN downsizing", in line with recent
studies of the hard X-ray luminosity function. We compare our measured QLF to a
number of theoretical models and find that models making a variety of
assumptions about quasar triggering and halo occupation can fit our data over a
wide range of redshifts and luminosities.
Description
[1210.6389] The SDSS-III Baryon Oscillation Spectroscopic Survey: The Quasar Luminosity Function from Data Release Nine
cite arxiv:1210.6389Comment: 28 pages, 19 figures, 9 tables. Submitted to The ApJ. All the necessary data and code used herein will be made publicly available at http://www.sdss3.org/dr9/qlf
%0 Generic
%1 ross2012sdssiii
%A Ross, Nicholas P.
%A McGreer, Ian D.
%A White, Martin
%A Richards, Gordon T.
%A Myers, Adam D.
%A Palanque-Delabrouille, Nathalie
%A Strauss, Michael A.
%A Anderson, Scott F.
%A Shen, Yue
%A Brandt, W. N.
%A Yeche, Christophe
%A Swanson, Molly E. C.
%A Aubourg, Eric
%A Bailey, Stephen
%A Bizyaev, Dmitry
%A Bovy, Jo
%A Brewington, Howard
%A Brinkmann, J.
%A DeGraf, Colin
%A Di Matteo, Tiziana
%A Ebelke, Garrett
%A Fan, Xiaohui
%A Ge, Jian
%A Malanushenko, Elena
%A Malanushenko, Viktor
%A Mandelbaum, Rachel
%A Maraston, Claudia
%A Muna, Demitri
%A Oravetz, Daniel
%A Pan, Kaike
%A Paris, Isabelle
%A Petitjean, Patrick
%A Schawinski, Kevin
%A Schlegel, David J.
%A Schneider, Donald P.
%A Silverman, John D.
%A Simmons, Audrey
%A Snedden, Stephanie
%A Streblyanska, Alina
%A Suzuki, Nao
%A Weinberg, David H.
%A York, Donald
%D 2012
%K function luminosity quasar
%T The SDSS-III Baryon Oscillation Spectroscopic Survey: The Quasar
Luminosity Function from Data Release Nine
%U http://arxiv.org/abs/1210.6389
%X We present a new measurement of the optical Quasar Luminosity Function (QLF),
using data from the Sloan Digital Sky Survey-III: Baryon Oscillation
Spectroscopic Survey (SDSS-III: BOSS). From the SDSS-III Data Release Nine
(DR9), we select a uniform sample of 22,301 i<=21.8 quasars over an area of
2236 sq. deg with confirmed spectroscopic redshifts between 2.2<z<3.5, filling
in a key part of the luminosity-redshift plane for optical quasar studies. We
derive the completeness of the survey through simulated quasar photometry, and
check this completeness estimate using a sample of quasars selected by their
photometric variability within the BOSS footprint. We investigate the level of
systematics associated with our quasar sample using the simulations, in the
process generating color-redshift relations and a new quasar k-correction. We
probe the faint end of the QLF to M_i(z=2.2) = -24.5 and see a clear break in
the QLF at all redshifts up to z=3.5. We find that a log-linear relation (in
logPhi* - M*) for a luminosity and density evolution (LEDE) model adequately
describes our data within the range 2.2<z<3.5; across this interval the break
luminosity increases by a factor of ~2.3 while Phi* declines by a factor of ~6.
At z<2.2 our data is reasonably well fit by a pure luminosity evolution (PLE)
model. We see only a weak signature of ÄGN downsizing", in line with recent
studies of the hard X-ray luminosity function. We compare our measured QLF to a
number of theoretical models and find that models making a variety of
assumptions about quasar triggering and halo occupation can fit our data over a
wide range of redshifts and luminosities.
@misc{ross2012sdssiii,
abstract = {We present a new measurement of the optical Quasar Luminosity Function (QLF),
using data from the Sloan Digital Sky Survey-III: Baryon Oscillation
Spectroscopic Survey (SDSS-III: BOSS). From the SDSS-III Data Release Nine
(DR9), we select a uniform sample of 22,301 i<=21.8 quasars over an area of
2236 sq. deg with confirmed spectroscopic redshifts between 2.2<z<3.5, filling
in a key part of the luminosity-redshift plane for optical quasar studies. We
derive the completeness of the survey through simulated quasar photometry, and
check this completeness estimate using a sample of quasars selected by their
photometric variability within the BOSS footprint. We investigate the level of
systematics associated with our quasar sample using the simulations, in the
process generating color-redshift relations and a new quasar k-correction. We
probe the faint end of the QLF to M_i(z=2.2) = -24.5 and see a clear break in
the QLF at all redshifts up to z=3.5. We find that a log-linear relation (in
log[Phi*] - M*) for a luminosity and density evolution (LEDE) model adequately
describes our data within the range 2.2<z<3.5; across this interval the break
luminosity increases by a factor of ~2.3 while Phi* declines by a factor of ~6.
At z<2.2 our data is reasonably well fit by a pure luminosity evolution (PLE)
model. We see only a weak signature of "AGN downsizing", in line with recent
studies of the hard X-ray luminosity function. We compare our measured QLF to a
number of theoretical models and find that models making a variety of
assumptions about quasar triggering and halo occupation can fit our data over a
wide range of redshifts and luminosities.},
added-at = {2012-10-25T15:41:55.000+0200},
author = {Ross, Nicholas P. and McGreer, Ian D. and White, Martin and Richards, Gordon T. and Myers, Adam D. and Palanque-Delabrouille, Nathalie and Strauss, Michael A. and Anderson, Scott F. and Shen, Yue and Brandt, W. N. and Yeche, Christophe and Swanson, Molly E. C. and Aubourg, Eric and Bailey, Stephen and Bizyaev, Dmitry and Bovy, Jo and Brewington, Howard and Brinkmann, J. and DeGraf, Colin and Di Matteo, Tiziana and Ebelke, Garrett and Fan, Xiaohui and Ge, Jian and Malanushenko, Elena and Malanushenko, Viktor and Mandelbaum, Rachel and Maraston, Claudia and Muna, Demitri and Oravetz, Daniel and Pan, Kaike and Paris, Isabelle and Petitjean, Patrick and Schawinski, Kevin and Schlegel, David J. and Schneider, Donald P. and Silverman, John D. and Simmons, Audrey and Snedden, Stephanie and Streblyanska, Alina and Suzuki, Nao and Weinberg, David H. and York, Donald},
biburl = {https://www.bibsonomy.org/bibtex/254b3d6cfca4cb0d13ac85c5e285e8abd/miki},
description = {[1210.6389] The SDSS-III Baryon Oscillation Spectroscopic Survey: The Quasar Luminosity Function from Data Release Nine},
interhash = {2b167a84b002b5d088ceab56f6a6c4d2},
intrahash = {54b3d6cfca4cb0d13ac85c5e285e8abd},
keywords = {function luminosity quasar},
note = {cite arxiv:1210.6389Comment: 28 pages, 19 figures, 9 tables. Submitted to The ApJ. All the necessary data and code used herein will be made publicly available at http://www.sdss3.org/dr9/qlf},
timestamp = {2012-10-25T15:41:55.000+0200},
title = {The SDSS-III Baryon Oscillation Spectroscopic Survey: The Quasar
Luminosity Function from Data Release Nine},
url = {http://arxiv.org/abs/1210.6389},
year = 2012
}