TY - JOUR
T1 - THE SLOAN DIGITAL SKY SURVEY REVERBERATION MAPPING PROJECT
T2 - VELOCITY SHIFTS of QUASAR EMISSION LINES
AU - Shen, Yue
AU - Brandt, W. N.
AU - Richards, Gordon T.
AU - Denney, Kelly D.
AU - Greene, Jenny E.
AU - Grier, C. J.
AU - Ho, Luis C.
AU - Peterson, Bradley M.
AU - Petitjean, Patrick
AU - Schneider, Donald P.
AU - Tao, Charling
AU - Trump, Jonathan R.
N1 - Publisher Copyright:
© 2016. The American Astronomical Society. All rights reserved..
PY - 2016/11/1
Y1 - 2016/11/1
N2 - Quasar emission lines are often shifted from the systemic velocity due to various dynamical and radiative processes in the line-emitting region. The level of these velocity shifts depends both on the line species and on quasar properties. We study velocity shifts for the line peaks (not the centroids) of various narrow and broad quasar emission lines relative to systemic using a sample of 849 quasars from the Sloan Digital Sky Survey Reverberation Mapping (SDSS-RM) project. The coadded (from 32 epochs) spectra of individual quasars have sufficient signal-to-noise ratio (S/N) to measure stellar absorption lines to provide reliable systemic velocity estimates, as well as weak narrow emission lines. The large dynamic range in quasar luminosity (∼2 dex) of the sample allowed us to explore potential luminosity dependence of the velocity shifts. We derive average line peak velocity shifts as a function of quasar luminosity for different lines, and quantify their intrinsic scatter. We further quantify how well the peak velocity can be measured as a function of continuum S/N, and demonstrate that there is no systematic bias in the velocity measurements when S/N is degraded to as low as ∼3 per SDSS pixel (). Based on the observed line shifts, we provide empirical guidelines on redshift estimation from [O ii] , [O iii] , [Ne v] , Mg ii, C iii], He ii , broad Hβ, C iv, and Si iv, which are calibrated to provide unbiased systemic redshifts in the mean, but with increasing intrinsic uncertainties of 46, 56, 119, 205, 233, 242, 400, 415, and 477 , in addition to the measurement uncertainties. These results demonstrate the infeasibility of measuring quasar redshifts to better than with only broad lines.
AB - Quasar emission lines are often shifted from the systemic velocity due to various dynamical and radiative processes in the line-emitting region. The level of these velocity shifts depends both on the line species and on quasar properties. We study velocity shifts for the line peaks (not the centroids) of various narrow and broad quasar emission lines relative to systemic using a sample of 849 quasars from the Sloan Digital Sky Survey Reverberation Mapping (SDSS-RM) project. The coadded (from 32 epochs) spectra of individual quasars have sufficient signal-to-noise ratio (S/N) to measure stellar absorption lines to provide reliable systemic velocity estimates, as well as weak narrow emission lines. The large dynamic range in quasar luminosity (∼2 dex) of the sample allowed us to explore potential luminosity dependence of the velocity shifts. We derive average line peak velocity shifts as a function of quasar luminosity for different lines, and quantify their intrinsic scatter. We further quantify how well the peak velocity can be measured as a function of continuum S/N, and demonstrate that there is no systematic bias in the velocity measurements when S/N is degraded to as low as ∼3 per SDSS pixel (). Based on the observed line shifts, we provide empirical guidelines on redshift estimation from [O ii] , [O iii] , [Ne v] , Mg ii, C iii], He ii , broad Hβ, C iv, and Si iv, which are calibrated to provide unbiased systemic redshifts in the mean, but with increasing intrinsic uncertainties of 46, 56, 119, 205, 233, 242, 400, 415, and 477 , in addition to the measurement uncertainties. These results demonstrate the infeasibility of measuring quasar redshifts to better than with only broad lines.
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U2 - 10.3847/0004-637X/831/1/7
DO - 10.3847/0004-637X/831/1/7
M3 - Article
AN - SCOPUS:84994572048
SN - 0004-637X
VL - 831
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 1
M1 - 7
ER -