J/ApJS/241/34 The SDSS Reverberation Mapping (SDSS-RM) project (Shen+, 2019)
The Sloan Digital Sky Survey Reverberation Mapping project: sample
characterization.
Shen Y., Hall P.B., Horne K., Zhu G., Mcgreer I., Simm T., Trump J.R.,
Kinemuchi K., Brandt W.N., Green P.J., Grier C.J., Guo H., Ho L.C.,
Homayouni Y., Jiang L., Li J.I.-H., Morganson E., Petitjean P.,
Richards G.T., Schneider D.P., Starkey D.A., Wang S., Chambers K.,
Kaiser N., Kudritzki R.-P., Magnier E., Waters C.
<Astrophys. J. Suppl. Ser., 241, 34-34 (2019)>
=2019ApJS..241...34S 2019ApJS..241...34S (SIMBAD/NED BibCode)
ADC_Keywords: QSOs; Line Profiles; Surveys; Spectra, optical; Photometry, SDSS;
Photometry, infrared; Radio sources; Redshifts
Keywords: black hole physics; galaxies: active; line: profiles; quasars: general
surveys
Abstract:
We present a detailed characterization of the 849 broad-line quasars
from the Sloan Digital Sky Survey Reverberation Mapping (SDSS-RM)
project. Our quasar sample covers a redshift range of 0.1<z<4.5 and is
flux-limited to iPSF<21.7 without any other cuts on quasar
properties. The main sample characterization includes: (1) spectral
measurements of the continuum and broad emission lines for individual
objects from the coadded first-season spectroscopy in 2014,
(2) identification of broad and narrow absorption lines in the
spectra, and (3) optical variability properties for continuum and
broad lines from multi-epoch spectroscopy. We provide improved
systemic redshift estimates for all quasars and demonstrate the
effects of the signal-to-noise ratio on the spectral measurements. We
compile measured properties for all 849 quasars along with
supplemental multi-wavelength data for subsets of our sample from
other surveys. The SDSS-RM sample probes a diverse range in quasar
properties and shows well-detected continuum and broad-line
variability for many objects from first-season monitoring data. The
compiled properties serve as the benchmark for follow-up work based on
SDSS-RM data.
Description:
The SDSS-RM field is a single 7.2° field that coincides with the
PS1 Medium Deep Field (MDF) MD07 (RAJ2000=213.704,DEJ2000=+53.083),
which lies within the CFHT-LS W3 field.
The SDSS-RM sample contains 849 broad-line quasars over a redshift
range of 0.1<z<4.5. Most of the SDSS-RM quasars were previously
spectroscopically confirmed quasars in SDSS-I-III.
The primary spectroscopy has been obtained with the SDSS telescope and
the BOSS spectrographs. The first-season SDSS-RM spectroscopic data
were taken from 2014 January to July in SDSS-III and consist of a
total of 32 epochs with an average cadence of ∼4days; each epoch had a
typical exposure time of 2hr. The SDSS-RM program has continued in
SDSS-IV, with ∼12 epochs per year (2 per month) with a nominal
exposure time of 1hr each during 2015-2017 and ∼6 epochs per year
(monthly cadence) during 2018-2020. As of 2018 July, we have obtained
a total of 78 spectroscopic epochs and a spectroscopic baseline of 5yr
(2014-2018). The wavelength coverage of BOSS spectroscopy is
∼3650-10400Å, with a spectral resolution of R∼2000.
We obtained additional spectroscopic data with the Multiple Mirror
Telescope (MMT)/Hectospec in 2017.
Supporting photometric observations in both the g and i bands have
been obtained primarily with the Steward Observatory Bok 2.3m
telescope on Kitt Peak and the 3.6m Canada-France-Hawaii Telescope
(CFHT) on Maunakea, which roughly cover the same monitoring period as
SDSS-RM spectroscopy with a cadence of ∼2 days in 2014 and reduced
cadences in successive years (see Kinemuchi+, 2020, J/ApJS/250/10).
In addition, we also have early multi-band photometric light curves
from PS1 during 2010-2013 with a typical cadence of several days.
The SDSS-RM field continues to be monitored with the PS1 system in
five bands since 2016, albeit with reduced cadence (about weekly to
monthly per band).
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
catalog.dat 4830 849 Main catalog (see Table 2)
zabs.dat 128 849 Absorber redshifts of narrow absorption-line
systems (maximum 10)
--------------------------------------------------------------------------------
Description of file:
The samplecharfinal_v2.fits.gz file is the original FITS table downloaded on:
http://iopscience.iop.org/article/10.3847/1538-4365/ab074f#apjsab074ft2
See also:
B/xmm : XMM-Newton Obs. Log (XMM-Newton Science Operation Center, 2012)
B/chandra : The Chandra Archive Log (CXC, 1999-2014)
VIII/92 : The FIRST Survey Catalog, Version 2014Dec17 (Helfand+ 2015)
II/328 : AllWISE Data Release (Cutri+ 2013)
II/349 : The Pan-STARRS release 1 (PS1) Survey - DR1 (Chambers+, 2016)
II/335 : Revised cat. of GALEX UV sources (GUVcat_AIS GR6+7) (Bianchi+ 2017)
II/363 : The band-merged unWISE Catalog (Schlafly+, 2019)
V/154 : Sloan Digital Sky Surveys (SDSS) DR16 (Ahumada+, 2020)
VII/289 : SDSS quasar catalog, sixteenth data release (DR16Q) (Lyke+, 2020)
II/368 : Spitzer (SEIP) source list (SSTSL2) (Spitzer Science Center, 2021)
J/AJ/131/84 : AGNs and host galaxies information (Vanden Berk+, 2006)
J/AJ/131/2766 : Quasar luminosity function from SDSS-DR3 (Richards+, 2006)
J/ApJS/165/1 : BAL QSOs from SDSS DR3 (Trump+, 2006)
J/ApJS/166/470 : SDSS-Spitzer type I QSOs IR photometry (Richards+, 2006)
J/AJ/135/928 : The black hole-bulge relationship (Shen+, 2008)
J/ApJ/679/962 : Quasars with strong nitrogen emission lines (Jiang+, 2008)
J/ApJ/680/169 : SDSS DR5 virial black hole masses (Shen+, 2008)
J/ApJ/692/758 : BAL QSOs in SDSS-DR5 (Gibson+, 2009)
J/ApJS/194/45 : QSO properties from SDSS-DR7 (Shen+, 2011)
J/ApJS/199/3 : The quasars MMT-BOSS pilot survey (Ross+, 2012)
J/ApJ/753/125 : NIR spectroscopy follow-up of 60 SDSS-DR7 QSOs (Shen+, 2012)
J/ApJ/766/60 : GALEX Time Domain Survey I. UV variable sources (Gezari+, 2013)
J/ApJ/772/26 : AGN with WISE. II. The NDWFS Bootes field (Assef+, 2013)
J/ApJS/216/4 : SDSS-RM project: technical overview (Shen+, 2015)
J/ApJ/805/96 : SDSS-RM project: velocity dispersions of QSOs (Shen+, 2015)
J/ApJS/220/10 : AEGIS-X Deep survey of EGS (AEGIS-XD) (Nandra+, 2015)
J/ApJ/811/91 : SDSS-RM project: z<1 QSO host galaxies (Matsuoka+, 2015)
J/ApJ/818/30 : Lag measurements for 15 z<0.8 QSOs from SDSS-RM (Shen+, 2016)
J/ApJ/831/7 : SDSS-RM project: peak velocities of QSOs (Shen+, 2016)
J/ApJ/851/21 : SDSS RM project first year of observations (Grier+, 2017)
J/ApJ/859/8 : SDSS J120414.37+351800.5 quasar optical photometry (Liu+, 2018)
J/ApJ/872/21 : SDSS RM project: <10day CIV BAL variability (Hemler+, 2019)
J/ApJ/880/126 : SDSS RM project: continuum lags (Homayouni+, 2019)
J/ApJ/882/4 : SDSS-RM project: Hα, Hβ & MgII lines (Wang+, 2019)
J/ApJ/887/38 : SDSS RM Project: CIV lags & LCs over 4yrs (Grier+, 2019)
J/ApJS/250/10 : SDSS-RM AGNs CFHT & Bok photometry over 4yrs (Kinemuchi+, 2020)
http://www.sdss3.org/ : SDSS-III home page
Byte-by-byte Description of file: catalog.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 I3 --- RMID [0/848] Object ID of SDSS-RM quasars
5- 16 F12.8 deg RAdeg [211.28/216.15] Right ascension
(J2000) (RA)
18- 28 F11.8 deg DEdeg [51.62/54.54] Declination (J2000)
(DEC)
30- 36 F7.4 mag uPSFmag [16.8/26] SDSS PSF u-band
magnitude; undereddened for
Galactic extinction
38- 44 F7.4 mag gPSFmag [16.8/23.7] SDSS PSF g-band
magnitude; undereddened for
Galactic extinction
46- 52 F7.4 mag rPSFmag [16.7/22.8] SDSS PSF r-band
magnitude; undereddened for
Galactic extinction
54- 60 F7.4 mag iPSFmag [16.4/21.7] SDSS PSF i-band
magnitude; undereddened for
Galactic extinction
62- 68 F7.4 mag zPSFmag [16.4/22.9] SDSS PSF z-band
magnitude; undereddened for
Galactic extinction
70- 76 F7.4 mag uF2mag SDSS u-band Fiber2 magnitude
(uFIBER2MAG)
78- 84 F7.4 mag gF2mag SDSS g-band Fiber2 magnitude
(gFIBER2MAG)
86- 92 F7.4 mag rF2mag SDSS r-band Fiber2 magnitude
(rFIBER2MAG)
94- 100 F7.4 mag iF2mag SDSS i-band Fiber2 magnitude
(iFIBER2MAG)
102- 108 F7.4 mag zF2mag SDSS z-band Fiber2 magnitude
(zFIBER2MAG)
110 I1 --- OT [3/6] SDSS type of object (3=galaxy,
6=star) (OBJC_TYPE)
112- 117 F6.4 --- zpip [0.1/4.4] Pipeline redshift
119- 126 F8.6 --- zsys [0.1/4.4] Improved systemic redshift
128- 135 F8.6 --- e_zsys [2.7e-5/0.008] zsys uncertainty
(ZSYS_ERR)
137- 149 I13 --- BOSST1 ?=0 SDSS-III BOSS TARGET1 bits
(BOSS_TARGET1)
151 I1 --- BOSST2 [0] SDSS-III BOSS target bits
(always "0") (BOSS_TARGET2)
153- 171 I19 --- BOSSA1 ?=0 SDSS-III BOSS ANCILLARY
TARGET1 bits (ANCILLARY_TARGET1)
173- 182 I10 --- BOSSA2 ?=0 SDSS-III BOSS ANCILLARY
TARGET2 bits (ANCILLARY_TARGET2)
184- 192 I9 --- PrimTarg ?=0 SDSS-I/II DR7 primary target
bits (PRIMTARGET)
194 I1 --- SecTarg [0] SDSS-I/II DR7 primary target
bits (always "0") (SECTARGET)
196- 202 A7 --- OTarg Other target flags (OTHER_TARGET)
204- 207 I4 --- Plate ?=0 First SDSS plate
(PLATESDSSFIRST)
209- 211 I3 --- Fiber ?=0 First SDSS fiber
(FIBERIDSDSSFIRST)
213- 217 I5 --- MJD ?=0 First SDSS MJD (MJDSDSSFIRST)
219- 232 A14 --- Plates Plate list of previous SDSS
spectra (before SDSS-RM) (PLATE_ALL)
234- 247 A14 --- Fibers Fiber list of previous SDSS
spectra (before SDSS-RM)
(FIBERID_ALL)
249- 265 A17 --- MJDs MJD list of previous SDSS spectra
(before SDSS-RM) (MJD_ALL)
267- 280 A14 --- Lambdas λeff list (LAMBDAEFFALL)
282- 284 I3 --- o_rmsgPS1 [0/279] Number of good gPS1
epochs (gPS1NMAGOK)
286- 288 I3 --- o_rmsrPS1 [0/353] Number of good rPS1
epochs (rPS1NMAGOK)
290- 292 I3 --- o_rmsiPS1 [0/456] Number of good iPS1
epochs (iPS1NMAGOK)
294- 296 I3 --- o_rmszPS1 [0/537] Number of good zPS1
epochs (zPS1NMAGOK)
298- 300 I3 --- o_rmsYPS1 [0/217] Number of good YPS1
epochs (YPS1NMAGOK)
302- 308 F7.3 mag rmsgPS1 [0/0.91]?=-1 Intrinsic rms
magnitude of the PS1 light curves
in gPS1 (PS1gRMSMAG)
310- 316 F7.3 mag rmsrPS1 [0/0.53]?=-1 Intrinsic rms
magnitude of the PS1 light curves
in rPS1 (PS1rRMSMAG)
318- 324 F7.3 mag rmsiPS1 [0/0.77]?=-1 Intrinsic rms
magnitude of the PS1 light curves
in iPS1 (PS1iRMSMAG)
326- 332 F7.3 mag rmszPS1 [0/0.81]?=-1 Intrinsic rms
magnitude of the PS1 light curves
in zPS1 (PS1zRMSMAG)
334- 340 F7.3 mag rmsYPS1 [0/0.53]?=-1 Intrinsic rms
magnitude of the PS1 light curves
in YPS1 (PS1YRMSMAG)
342- 348 F7.3 mag W1mag [13.3/18.9]?=-1 AllWISE W1-band
(3.35um) magnitude (ALLWISE1234a)
350- 356 F7.3 mag W2mag [12.2/17.9]?=-1 AllWISE W2-band
(4.6um) magnitude (ALLWISE1234b)
358- 364 F7.3 mag W3mag [8.8/13.2]?=-1 AllWISE W3-band
(11.6um) magnitude (ALLWISE1234c)
366- 372 F7.3 mag W4mag [6.5/9.6]?=-1 AllWISE W4-band
(22.1um) magnitude (ALLWISE1234d)
374- 380 F7.3 mag e_W1mag [0.02/0.5]?=-1 W1mag uncertainty
(ALLWISE1234_ERRa)
382- 388 F7.3 mag e_W2mag [0.02/0.6]?=-1 W2mag uncertainty
(ALLWISE1234_ERRb)
390- 396 F7.3 mag e_W3mag [0.02/0.6]?=-1 W3mag uncertainty
(ALLWISE1234_ERRc)
398- 404 F7.3 mag e_W4mag [0.059/0.6]?=-1 W4mag uncertainty
(ALLWISE1234_ERRd)
406- 411 F6.3 arcsec SepWISEA [0.005/6]?=-1 Angular separation
between SDSS and ALLWISE matches
(ALLWISE_OFFSET)
413- 419 F7.3 mag W1magUn [13.2/21.2]? Forced unWISE W1
magnitude from
Lang+ 2016AJ....151...36L 2016AJ....151...36L
(UNWISE1234a)
421- 427 F7.3 mag W2magUn [12.2/22.6]? Forced unWISE W1
magnitude from
Lang+ 2016AJ....151...36L 2016AJ....151...36L
(UNWISE1234b)
429- 435 F7.3 mag W3magUn [8.8/19.8]? Forced unWISE W1
magnitude from
Lang+ 2016AJ....151...36L 2016AJ....151...36L
(UNWISE1234c)
437- 443 F7.3 mag W4magUn [6.6/16.8]? Forced unWISE W1
magnitude from
Lang+ 2016AJ....151...36L 2016AJ....151...36L
(UNWISE1234d)
445- 452 F8.3 mag e_W1magUn [0.003/3]? W1magUn uncertainty
(UNWISE1234_ERRa)
454- 461 F8.3 mag e_W2magUn [0.003/44]? W2magUn uncertainty
(UNWISE1234_ERRb)
463- 470 F8.3 mag e_W3magUn [0.009/218]? W3magUn uncertainty
(UNWISE1234_ERRc)
472- 479 F8.3 mag e_W4magUn [0.03/348]? W4magUn uncertainty
(UNWISE1234_ERRd)
481 I1 --- BAL [0/3]? Broad absorption-line flag
(BAL_FLAG) (1)
483- 484 I2 --- NABS [0/10] Number of narrow
absorption-line systems (see the
individual redshifts of the
absorber systems in zabs.dat file)
486 I1 --- RType [0/2]? FIRST radio morphology type
(FIRSTFRTYPE) (2)
488- 495 F8.4 mJy F1.4GHz [1.8/119]?=-1 FIRST integrated
flux density at 20cm
(FIRSTFINTMJY)
497- 504 F8.4 mJy Fnu5GHz [1.6/129]?=-1 Observed radio flux
density at rest-frame 6cm
(FINTREST6CMMJY_OBS)
506- 513 F8.4 mW/m2/Hz logFnu2500A [-29/-26.1]?=0 Observed optical
flux density at rest-frame
2500Å in erg/s/cm2/Hz
(LOGFNU2500AERGSOBS)
515- 524 F10.4 --- RL [25.6/13263]?=-1 Radio loudness
(Fnu6cm/Fnu2500) (R6CM2500A)
526- 533 F8.4 --- Chi2 [1/601] Reduced χ2 for the
continuum fit (CONTI_REDCHI2)
535- 541 F7.4 [10-7W] logL1350 [44/47]?=0 Log of continuum
luminosity at rest-frame 1350Å
in erg/s
543- 549 F7.4 [10-7W] e_logL1350 [0.0003/0.03]?=-1 logL1350
uncertainty (LOGL1350_ERR)
551- 557 F7.4 [10-7W] logL1700 [44/47]?=0 Log of continuum
luminosity at rest-frame 1700Å
in erg/s
559- 565 F7.4 [10-7W] e_logL1700 [0.0002/0.02]?=-1 logL1700
uncertainty (LOGL1700_ERR)
567- 573 F7.4 [10-7W] logL3000 [42/47]?=0 Log of continuum
luminosity at rest-frame 3000Å
in erg/s
575- 581 F7.4 [10-7W] e_logL3000 [0.0001/0.03]?=-1 logL3000
uncertainty (LOGL3000_ERR)
583- 589 F7.4 [10-7W] logL5100 [42.6/46]?=0 Log of continuum
luminosity at rest-frame 5100Å
in erg/s
591- 597 F7.4 [10-7W] e_logL5100 [0.0002/0.03]?=-1 logL5100
uncertainty (LOGL5100_ERR)
599- 606 F8.4 0.1nm EWFe [4/162]?=0 Rest-frame equivalent
width of optical FeII within
4434-4684Å in Å units
(REWFE4434_4684)
608- 614 F7.4 0.1nm e_EWFe [0.18/31]?=-1 EWFe uncertainty
(REWFE44344684ERR)
616- 625 E10.5 0.1nm pkSII6718 [6715/6726]?=0 SII6718 peak
wavelength in Å (SII6718a)
627- 636 E10.5 km/s FWHMSII6718 [202/1225]?=0 SII6718 FWHM
(SII6718b)
638- 647 E10.5 [10-7W] logLSII6718 [38.7/48.5]?=0 Log of SII6718 line
luminosity in erg/s (SII6718c)
649- 658 E10.5 0.1nm EWSII6718 [0.5/1.2e+8]?=0 Rest-frame EW of
SII6718 in Å (SII6718d)
660- 669 E10.5 0.1nm FcSII6718 [6715/6726]?=0 SII6718 top 50%
flux centroid in Å (SII6718e)
671- 680 F10.4 0.1nm pkHa [6533/6581]?=0 Hα (narrow and
broad lines combined) peak
wavelength in Å (HALPHAa)
682- 691 F10.4 km/s FWHMHa [269/7477]?=0 Hα (narrow and
broad lines combined) FWHM (HALPHAb)
693- 702 F10.4 [10-7W] logLHa [40.6/43.6]?=0 Log of Hα
line luminosity in erg/s (HALPHAc)
704- 713 F10.4 0.1nm EWHa [44/531]?=0 Rest-frame EW of
Hα (narrow and broad lines
combined) in Å (HALPHAd)
715- 724 F10.4 0.1nm FcHa [6505/6584]?=0 Hα (narrow and
broad lines combined) top 50%
flux centroid in Å (HALPHAe)
726- 736 F11.4 0.1nm pkbHa [6473/6589]?=0 Broad Hα peak
wavelength in Å (HALPHA_BRa)
738- 748 F11.4 km/s FWHMbHa [1531/11600]?=0 Broad Hα
FWHM (HALPHA_BRb)
750- 760 F11.4 [10-7W] logLbHa [40.5/43.6]?=0 Log of broad
Hα line luminosity in erg/s
(HALPHA_BRc)
762- 772 F11.4 0.1nm EWbHa [37/492]?=0 Rest-frame EW of broad
Hα in Å (HALPHA_BRd)
774- 784 F11.4 0.1nm FcbHa [6493/6611]?=0 Broad Hα top
50% flux centroid in Å
(HALPHA_BRe)
786- 796 F11.4 0.1nm pkHb [4809/4906]?=0 Hβ (narrow and
broad lines combined) peak
wavelength in Å (HBETAa)
798- 808 F11.4 km/s FWHMHb [164/11906]?=0 Hβ (narrow and
broad lines combined) FWHM (HBETAb)
810- 820 F11.4 [10-7W] logLHb [39.5/44]?=0 Log of Hβ (narrow
and broad lines combined) line
luminosity in erg/s (HBETAc)
822- 832 F11.4 0.1nm EWHb [0.8/1662]?=0 Rest-frame EW of
Hβ (narrow and broad lines
combined) in Å (HBETAd)
834- 844 F11.4 0.1nm FcHb [4810/4896]?=0 Hβ (narrow and
broad lines combined) top 50%
flux centroid in Å (HBETAe)
846- 856 F11.4 0.1nm pkbHb [4809/4915]?=0 Broad Hβ peak
wavelength in Å (HBETA_BRa)
858- 868 F11.4 km/s FWHMbHb [1411/13798]?=0 Broad Hβ FWHM
(HBETA_BRb)
870- 880 F11.4 [10-7W] logLbHb [39.5/44]?=0 Log of broad Hβ
line luminosity in erg/s (HBETA_BRc)
882- 892 F11.4 0.1nm EWbHb [1.9/1639]?=0 Rest-frame EW of
broad Hβ in Å (HBETA_BRd)
894- 904 F11.4 0.1nm FcbHb [4810/4915]?=0 Broad Hβ top
50% flux centroid in Å
(HBETA_BRe)
906- 916 F11.4 0.1nm pkHeII4687 [4663/4711]?=0 HeII4687 (narrow and
broad lines combined) peak
wavelength in Å (HEII4687a)
918- 928 F11.4 km/s FWHMHeII4687 [162/35298]?=0 HeII4687 (narrow and
broad lines combined) FWHM
(HEII4687b)
930- 940 F11.4 [10-7W] logLHeII4687 [24.9/43]?=0 Log of HeII4687 (narrow
and broad lines combined) line
luminosity in erg/s (HEII4687c)
942- 952 F11.4 0.1nm EWHeII4687 [0.004/100]?=0 Rest-frame EW of
HeII4687 (narrow and broad lines
combined) in Å (HEII4687d)
954- 964 F11.4 0.1nm FcHeII4687 [4663/4718]?=0 HeII4687 (narrow and
broad lines combined) top 50% flux
centroid in Å (HEII4687e)
966- 976 F11.4 0.1nm pkbHeII4687 [4663/4711]?=0 Broad HeII4687 peak
wavelength in Å (HEII4687_BRa)
978- 988 F11.4 km/s FWHMbHeII4687 [1411/35298]?=0 Broad HeII4687
FWHM (HEII4687_BRb)
990- 1000 F11.4 [10-7W] logLbHeII4687 [24/43]?=0 Log of broad HeII4687
line luminosity in erg/s
(HEII4687_BRc)
1002- 1012 F11.4 0.1nm EWbHeII4687 [0.2/98]?=0 Rest-frame EW of broad
HeII4687 in Å (HEII4687_BRd)
1014- 1024 F11.4 0.1nm FcbHeII4687 [4663/4718]?=0 Broad HeII4687 top
50% flux centroid in Å
(HEII4687_BRe)
1026- 1037 F12.4 0.1nm pkOIII5007 [4967/5027]?=0 OIII5007 peak
wavelength in Å (OIII5007a)
1039- 1050 F12.4 km/s FWHMOIII5007 [165/2784]?=0 OIII5007 FWHM
(OIII5007b)
1052- 1063 F12.4 [10-7W] logLOIII5007 [39/46.5]?=0 Log of OIII5007 line
luminosity in erg/s (OIII5007c)
1065- 1076 F12.4 0.1nm EWOIII5007 [0.2/738886]?=0 Rest-frame EW of
OIII5007 in Å (OIII5007d)
1078- 1089 F12.4 0.1nm FcOIII5007 [4991/5027]?=0 OIII5007 top 50%
flux centroid in Å (OIII5007e)
1091- 1102 F12.4 0.1nm pkOIII5007c [4998/5020]?=0 OIII5007 core peak
wavelength in Å (OIII5007Ca)
1104- 1115 F12.4 km/s FWHMOIII5007c [162/1181]?=0 OIII5007 core FWHM
(OIII5007Cb)
1117- 1128 F12.4 [10-7W] logLOIII5007c [37.5/46.5]?=0 Log of OIII5007
core luminosity in erg/s
(OIII5007Cc)
1130- 1141 F12.4 0.1nm EWOIII5007c [0.04/738817]?=0 Rest-frame EW of
OIII5007 core in Å (OIII5007Cd)
1143- 1154 F12.4 0.1nm FcOIII5007c [4998/5020]?=0 OIII5007 core top
50% flux centroid in Å
(OIII5007Ce)
1156- 1168 F13.4 0.1nm pkCAII3934 [3892/3978]?=0 CAII3934 peak
wavelength in Å (CAII3934a)
1170- 1182 F13.4 km/s FWHMCAII3934 [235/1412]?=0 CAII3934 FWHM
(CAII3934b)
1184- 1196 F13.4 [10-7W] logLCAII3934 [19.5/48.4]?=0 Log of CAII3934
line luminosity in erg/s (CAII3934c)
1198- 1210 F13.4 0.1nm EWCAII3934 [0.09/2.7e+6]?=0 Rest-frame EW of
CAII3934 in Å (CAII3934d)
1212- 1224 F13.4 0.1nm FcCAII3934 [3892/3978]?=0 CAII3934 top 50%
flux centroid in Å (CAII3934e)
1226- 1235 F10.4 0.1nm pkOII3728 [3693/3765]?=0 OII3728 peak
wavelength in Å (OII3728a)
1237- 1246 F10.4 km/s FWHMOII3728 [235/1412]?=0 OII3728 FWHM (OII3728b)
1248- 1257 F10.4 [10-7W] logLOII3728 [39.7/43.5]?=0 Log of OII3728 line
luminosity in erg/s (OII3728c)
1259- 1268 F10.4 0.1nm EWOII3728 [0.06/99]?=0 Rest-frame EW of
OII3728 in Å (OII3728d)
1270- 1279 F10.4 0.1nm FcOII3728 [3693/3765]?=0 OII3728 top 50%
flux centroid in Å (OII3728e)
1281- 1292 F12.4 0.1nm pkNEV3426 [3392/3462]?=0 NEV3426 peak
wavelength in Å (NEV3426a)
1294- 1305 F12.4 km/s FWHMNEV3426 [235/14120]?=0 NEV3426 FWHM
(NEV3426b)
1307- 1318 F12.4 [10-7W] logLNEV3426 [26.4/46.5]?=0 Log of NEV3426 line
luminosity in erg/s (NEV3426c)
1320- 1331 F12.4 0.1nm EWNEV3426 [0.02/213334]?=0 Rest-frame EW of
NEV3426 in Å (NEV3426d)
1333- 1344 F12.4 0.1nm FcNEV3426 [3392/3462]?=0 NEV3426 top 50% flux
centroid in Å (NEV3426e)
1346- 1356 F11.4 0.1nm pkMGII [2773/2839]?=0 MgII (narrow and broad
lines combined) peak
wavelength in Å (MGIIa)
1358- 1368 F11.4 km/s FWHMMGII [358/12336]?=0 MgII (narrow and broad
lines combined) FWHM (MGIIb)
1370- 1380 F11.4 [10-7W] logLMGII [40.2/45]?=0 Log of MgII (narrow and
broad lines combined) line
luminosity in erg/s (MGIIc)
1382- 1392 F11.4 0.1nm EWMGII [1.8/513]?=0 Rest-frame EW of MgII
(narrow and broad lines combined)
in Å (MGIId)
1394- 1404 F11.4 0.1nm FcMGII [2773/2836]?=0 MgII (narrow and broad
lines combined) top 50% flux
centroid in Å (MGIIe)
1406- 1416 F11.4 0.1nm pkbMGII [2773/2844]?=0 Broad MgII peak
wavelength in Å (MGII_BRa)
1418- 1428 F11.4 km/s FWHMbMGII [1411/12336]?=0 Broad MgII FWHM
(MGII_BRb)
1430- 1440 F11.4 [10-7W] logLbMGII [25/45]?=0 Log of broad MgII line
luminosity in erg/s (MGII_BRc)
1442- 1452 F11.4 0.1nm EWbMGII [1/454]?=0 Rest-frame EW of broad
MgII in Å (MGII_BRd)
1454- 1464 F11.4 0.1nm FcbMGII [2773/2839]?=0 Broad MgII top 50%
flux centroid in Å (MGII_BRe)
1466- 1476 F11.4 0.1nm pkCIII [1851/1937]?=0 CIII] complex (CIII],
SiIII], AllIII) peak wavelength in
Å (CIII_ALLa)
1478- 1488 F11.4 km/s FWHMCIII [705/16559]?=0 CIII] complex
(CIII], SiIII], AllIII) FWHM
(CIII_ALLb)
1490- 1500 F11.4 [10-7W] logLCIII [26.6/45.1]?=0 Log of CIII]
complex (CIII], SiIII], AllIII)
line luminosity in erg/s (CIII_ALLc)
1502- 1512 F11.4 0.1nm EWCIII [3.8/19684]?=0 Rest-frame EW of
CIII] complex (CIII], SiIII],
AllIII) in Å (CIII_ALLd)
1514- 1524 F11.4 0.1nm FcCIII [1854/1937]?=0 CIII] complex
(CIII], SiIII], AllIII) top 50%
flux centroid in Å (CIII_ALLe)
1526- 1536 F11.4 0.1nm pkbCIII [1880/1940]?=0 Broad CIII] peak
wavelength in Å (CIII_BRa)
1538- 1548 F11.4 km/s FWHMbCIII [1411/35298]?=0 Broad CIII] FWHM
(CIII_BRb)
1550- 1560 F11.4 [10-7W] logLbCIII [26.6/45]?=0 Log of broad CIII]
line luminosity in erg/s (CIII_BRc)
1562- 1572 F11.4 0.1nm EWbCIII [0.8/347]?=0 Rest-frame EW of
broad CIII] in Å (CIII_BRd)
1574- 1584 F11.4 0.1nm FcbCIII [1880/1943]?=0 Broad CIII] top 50%
flux centroid in Å (CIII_BRe)
1586- 1596 F11.4 0.1nm pkSIII1892 [1886/1898]?=0 SIII]1892 peak
wavelength in Å (SIIII1892a)
1598- 1608 F11.4 km/s FWHMSIII1892 [705/10590]?=0 SIII]1892 FWHM
(SIIII1892b)
1610- 1620 F11.4 [10-7W] logLSIII1892 [25.6/44.4]?=0 Log of SIII]1892
line luminosity in erg/s
(SIIII1892c)
1622- 1632 F11.4 0.1nm EWSIII1892 [0.02/1407]?=0 Rest-frame EW of
SIII]1892 in Å (SIIII1892d)
1634- 1644 F11.4 0.1nm FcSIII1892 [1886/1898]?=0 SIII]1892 top 50%
flux centroid in Å (SIIII1892e)
1646- 1656 F11.4 0.1nm pkAlIII1857 [1851/1863]?=0 AlIII1857 peak
wavelength in Å (ALIII1857a)
1658- 1668 F11.4 km/s FWHMAlIII1857 [705/10590]?=0 AlIII1857 FWHM
(ALIII1857b)
1670- 1680 F11.4 [10-7W] logLAlIII1857 [27.6/45]?=0 Log of AlIII1857 line
luminosity in erg/s (ALIII1857c)
1682- 1692 F11.4 0.1nm EWAlIII1857 [0.01/19617]?=0 Rest-frame EW of
AlIII1857 in Å (ALIII1857d)
1694- 1704 F11.4 0.1nm FcAlIII1857 [1851/1864]?=0 AlIII1857 top 50%
flux centroid in Å (ALIII1857e)
1706- 1716 F11.4 0.1nm pkNIII1750 [1732/1768]?=0 NIII1750 peak
wavelength in Å (NIII1750a)
1718- 1728 F11.4 km/s FWHMNIII1750 [705/10590]?=0 NIII1750 FWHM
(NIII1750b)
1730- 1740 F11.4 [10-7W] logLNIII1750 [24.5/44.2]?=0 Log of NIII1750
line luminosity in erg/s (NIII1750c)
1742- 1752 F11.4 0.1nm EWNIII1750 [0.03/19.5]?=0 Rest-frame EW of
NIII1750 in Å (NIII1750d)
1754- 1764 F11.4 0.1nm FcNIII1750 [1732/1769]?=0 NIII1750 top 50%
flux centroid in Å (NIII1750e)
1766- 1776 E11.5 0.1nm pkCIV [1526/1574]?=0 CIV peak wavelength
in Å (CIVa)
1778- 1788 E11.5 km/s FWHMCIV [705/11826]?=0 CIV FWHM (CIVb)
1790- 1800 E11.5 [10-7W] logLCIV [41.8/51.1]?=0 Log of CIV line
luminosity in erg/s (CIVc)
1802- 1812 E11.5 0.1nm EWCIV [1/8e+8]?=0 Rest-frame EW of CIV
in Å (CIVd)
1814- 1824 E11.5 0.1nm FcCIV [1526/1574]?=0 CIV top 50% flux
centroid in Å (CIVe)
1826- 1837 F12.4 0.1nm pkHeII1640 [1627/1654]?=0 HeII1640 (narrow and
broad lines combined) peak
wavelength in Å (HEII1640a)
1839- 1850 F12.4 km/s FWHMHeII1640 [352/14120]?=0 HeII1640 (narrow and
broad lines combined) FWHM
(HEII1640b)
1852- 1863 F12.4 [10-7W] logLHeII1640 [25/47]?=0 Log of HeII1640 (narrow
and broad lines combined) line
luminosity in erg/s (HEII1640c)
1865- 1876 F12.4 0.1nm EWHeII1640 [0.1/153217]?=0 Rest-frame EW of
(narrow and broad lines combined)
HeII1640 in Å (HEII1640d)
1878- 1889 F12.4 0.1nm FcHeII1640 [1627/1654]?=0 HeII1640 (narrow and
broad lines combined) top 50% flux
centroid in Å (HEII1640e)
1891- 1901 F11.4 0.1nm pkbHeII1640 [1627/1654]?=0 Broad HeII1640 peak
wavelength in Å (HEII1640_BRa)
1903- 1913 F11.4 km/s FWHMbHeII1640 [1764/14120]?=0 Broad HeII1640
FWHM (HEII1640_BRb)
1915- 1925 F11.4 [10-7W] logLbHeII1640 [25/46.6]?=0 Log of broad HeII1640
line luminosity in erg/s
(HEII1640_BRc)
1927- 1937 F11.4 0.1nm EWbHeII1640 [0.1/38641]?=0 Rest-frame EW of
broad HeII1640 in Å
(HEII1640_BRd)
1939- 1949 F11.4 0.1nm FcbHeII1640 [1627/1654]?=0 Broad HeII1640 top
50% flux centroid in Å
(HEII1640_BRe)
1951- 1961 E11.5 0.1nm pkSiIVOIV [1376/1424]?=0 1400Å complex
peak wavelength in Å (SIIV_OIVa)
1963- 1973 E11.5 km/s FWHMSiIVOIV [1411/16829]?=0 1400Å complex
FWHM (SIIV_OIVb)
1975- 1985 E11.5 [10-7W] logLSiIVOIV [27.5/49.9]?=0 Log of 1400Å
complex line luminosity in erg/s
(SIIV_OIVc)
1987- 1997 E11.5 0.1nm EWSiIVOIV [3.2e-15/8.3e+7]?=0 Rest-frame EW
of 1400Å complex in Å
(SIIV_OIVd)
1999- 2009 E11.5 0.1nm FcSiIVOIV [1376/1424]?=0 1400Å complex
top 50% flux centroid in Å
(SIIV_OIVe)
2011- 2021 E11.5 0.1nm pkOI1304 [1291/1318]?=0 OI1304 peak
wavelength in Å (OI1304a)
2023- 2033 E11.5 km/s FWHMOI1304 [705/10589]?=0 OI1304 FWHM (OI1304b)
2035- 2045 E11.5 [10-7W] logLOI1304 [28.3/48.7]?=0 Log of OI1304 line
luminosity in erg/s (OI1304c)
2047- 2057 E11.5 0.1nm EWOI1304 [1e-14/3e+6]?=0 Rest-frame EW of
OI1304 in Å (OI1304d)
2059- 2069 E11.5 0.1nm FcOI1304 [1291/1318]?=0 OI1304 top 50% flux
centroid in Å (OI1304e)
2071- 2081 E11.5 0.1nm pkLya [1190/1242]?=0 Lyα peak
wavelength in Å (LYAa)
2083- 2093 E11.5 km/s FWHMLya [1411/26939]?=0 Lyα FWHM (LYAb)
2095- 2105 E11.5 [10-7W] logLLya [43/48.7]?=0 Log of Lyα line
luminosity in erg/s (LYAc)
2107- 2117 E11.5 0.1nm EWLya [3.7/1.7e+6]?=0 Rest-frame EW of
Lyα in Å (LYAd)
2119- 2129 E11.5 0.1nm FcLya [1190/1243]?=0 Lyα top 50%
flux centroid in Å (LYAe)
2131- 2141 F11.4 0.1nm pkNV1240 [1233/1247]?=0 NV1240 peak
wavelength in Å (NV1240a)
2143- 2153 F11.4 km/s FWHMNV1240 [705/7060]?=0 NV1240 FWHM (NV1240b)
2155- 2165 F11.4 [10-7W] logLNV1240 [26/45]?=0 Log of NV1240 line
luminosity in erg/s (NV1240c)
2167- 2177 F11.4 0.1nm EWNV1240 [0.2/291]?=0 Rest-frame EW of
NV1240 in Å (NV1240d)
2179- 2189 F11.4 0.1nm FcNV1240 [1233/1247]?=0 NV1240 top 50% flux
centroid in Å (NV1240e)
2191- 2197 F7.4 --- Chi2SII6718 [0.8/37]?=0 Reduced χ2 for
the SII6718 fit (SII6718_REDCHI2)
2199- 2205 F7.4 --- Chi2Ha [0.8/37]?=0 Reduced χ2 for
the Hα fit (HALPHA_REDCHI2)
2207- 2213 F7.4 --- Chi2bHa [0.8/37]?=0 Reduced χ2 for
the broad Hα fit
(HALPHABRREDCHI2)
2215- 2221 F7.4 --- Chi2Hb [1/96]?=0 Reduced χ2 for the
Hβ fit (HBETA_REDCHI2)
2223- 2229 F7.4 --- Chi2bHb [1/96]?=0 Reduced χ2 for the
broad Hβ fit (HBETABRREDCHI2)
2231- 2237 F7.4 --- Chi2HeII4687 [0.7/96]?=0 Reduced χ2 for
the HeII4687 fit (HEII4687_REDCHI2)
2239- 2246 F8.4 --- Chi2bHeII4687 [0.7/96]?=0 Reduced χ2 for
the broad HeII4687 fit
(HEII4687BRREDCHI2)
2248- 2254 F7.4 --- Chi2OIII5007 [1/96]?=0 Reduced χ2 for the
OIII5007 fit (OIII5007_REDCHI2)
2256- 2262 F7.4 --- Chi2OIII5007c [1/96]?=0 Reduced χ2 for the
OIII5007 core fit
(OIII5007C_REDCHI2)
2264- 2273 F10.4 --- Chi2CAII3934 [0.5/34880]?=0 Reduced χ2
for the CAII3934 fit
(CAII3934_REDCHI2)
2275- 2281 F7.4 --- Chi2OII3728 [0.6/37]?=0 Reduced χ2 for
the OII3728 fit (OII3728_REDCHI2)
2283- 2288 F6.4 --- Chi2NEV3426 [0.6/10]?=0 Reduced χ2 for
the NEV3426 fit (NEV3426_REDCHI2)
2290- 2296 F7.4 --- Chi2MgII [0.7/12]?=0 Reduced χ2 for
the MgII fit (MGII_REDCHI2)
2298- 2304 F7.4 --- Chi2bMgII [0.7/12]?=0 Reduced χ2 for
the broad MgII fit (MGIIBRREDCHI2)
2306- 2311 F6.4 --- Chi2CIII [0.9/9]?=0 Reduced χ2 for
the CIII] fit (CIIIALLREDCHI2)
2313- 2318 F6.4 --- Chi2bCIII [0.9/9]?=0 Reduced χ2 for
the broad CIII] fit
(CIIIBRREDCHI2)
2320- 2325 F6.4 --- Chi2SIII1892 [0.9/9]?=0 Reduced χ2 for
the SIII]1892 fit
(SIIII1892_REDCHI2)
2327- 2332 F6.4 --- Chi2AlIII1857 [0.9/9]?=0 Reduced χ2 for
the AlIII1857 fit
(ALIII1857_REDCHI2)
2334- 2339 F6.4 --- Chi2NIII1750 [0.9/9]?=0 Reduced χ2 for
the NIII1750 fit (NIII1750_REDCHI2)
2341- 2349 F9.4 --- Chi2CIV [0.8/4245]?=0 Reduced χ2 for
the CIV fit (CIV_REDCHI2)
2351- 2359 F9.4 --- Chi2HeII1640 [0.8/4245]?=0 Reduced χ2 for
the HeII1640 fit (HEII1640_REDCHI2)
2361- 2369 F9.4 --- Chi2bHeII1640 [0.8/4245]?=0 Reduced χ2 for
the broad HeII1640 fit
(HEII1640BRREDCHI2)
2371- 2379 F9.4 --- Chi2SIIVOIV [0.9/1501]?=0 Reduced χ2 for
the 1400Å complex fit
(SIIVOIVREDCHI2)
2381- 2389 F9.4 --- Chi2OI1304 [0.9/1501]?=0 Reduced χ2 for
the OI1304 fit (OI1304_REDCHI2)
2391- 2399 F9.4 --- Chi2Lya [1/1139]?=0 Reduced χ2 for
the Lyα fit (LYA_REDCHI2)
2401- 2409 F9.4 --- Chi2NV1240 [1/1139]?=0 Reduced χ2 for
the NV1240 fit (NV1240_REDCHI2)
2411- 2422 F12.4 0.1nm e_pkSII6718 [0.02/2]?=-1 pkSII6718 uncertainty
(SII6718_ERRa)
2424- 2435 F12.4 km/s e_FWHMSII6718 [1/534]?=-1 FWHMSII6718
uncertainty (SII6718_ERRb)
2437- 2448 F12.4 [10-7W] e_logLSII6718 [0.003/24]?=-1 logLSII6718
uncertainty (SII6718_ERRc)
2450- 2461 F12.4 0.1nm e_EWSII6718 [0.01/839597]?=-1 EWSII6718
uncertainty (SII6718_ERRd)
2463- 2474 F12.4 0.1nm e_FcSII6718 [0.01/2]?=-1 FcSII6718 uncertainty
(SII6718_ERRe)
2476- 2485 F10.4 0.1nm e_pkHa [0.01/37]?=-1 pkHa uncertainty
(HALPHA_ERRa)
2487- 2496 F10.4 km/s e_FWHMHa [1.3/2204]?=-1 FWHMHa uncertainty
(HALPHA_ERRb)
2498- 2507 F10.4 [10-7W] e_logLHa [0.0004/1.1]?=-1 logLHa
uncertainty (HALPHA_ERRc)
2509- 2518 F10.4 0.1nm e_EWHa [0.3/7031]?=-1 EWHa uncertainty
(HALPHA_ERRd)
2520- 2529 F10.4 0.1nm e_FcHa [0.01/42]?=-1 FcHa uncertainty
(HALPHA_ERRe)
2531- 2540 F10.4 0.1nm e_pkbHa [0.02/57]?=-1 pkbHa uncertainty
(HALPHABRERRa)
2542- 2551 F10.4 km/s e_FWHMbHa [1.7/2752]?=-1 FWHMbHa uncertainty
(HALPHABRERRb)
2553- 2562 F10.4 [10-7W] e_logLbHa [0.0004/0.9]?=-1 logLbHa
uncertainty (HALPHABRERRc)
2564- 2573 F10.4 0.1nm e_EWbHa [0.3/3182]?=-1 EWbHa uncertainty
(HALPHABRERRd)
2575- 2584 F10.4 0.1nm e_FcbHa [0.01/56]?=-1 FcHa uncertainty
(HALPHABRERRe)
2586- 2596 F11.4 0.1nm e_pkHb [0.01/41]?=-1 pkHb uncertainty
(HBETA_ERRa)
2598- 2608 F11.4 km/s e_FWHMHb [0.02/3369]?=-1 FWHMHb uncertainty
(HBETA_ERRb)
2610- 2620 F11.4 [10-7W] e_logLHb [0.001/20.3]?=-1 logLHb
uncertainty (HBETA_ERRc)
2622- 2632 F11.4 0.1nm e_EWHb [0.1/49994]?=-1 EWHb uncertainty
(HBETA_ERRd)
2634- 2644 F11.4 0.1nm e_FcHb [0.01/32]?=-1 FcHb uncertainty
(HBETA_ERRe)
2646- 2656 F11.4 0.1nm e_pkbHb [0.03/49]?=-1 pkbHb uncertainty
(HBETABRERRa)
2658- 2668 F11.4 km/s e_FWHMbHb [0/4207]?=-1 FWHMbHb uncertainty
(HBETABRERRb)
2670- 2680 F11.4 [10-7W] e_logLbHb [0/21]?=-1 logLbHb uncertainty
(HBETABRERRc)
2682- 2692 F11.4 0.1nm e_EWbHb [0/49981]?=-1 EWbHb uncertainty
(HBETABRERRd)
2694- 2704 F11.4 0.1nm e_FcbHb [0.02/36]?=-1 FcbHb uncertainty
(HBETABRERRe)
2706- 2716 F11.4 0.1nm e_pkHeII4687 [0.01/24]?=-1 pkHeII4687
uncertainty (HEII4687_ERRa)
2718- 2728 F11.4 km/s e_FWHMHeII4687 [0/17649]?=-1 FWHMHeII4687
uncertainty (HEII4687_ERRb)
2730- 2740 F11.4 [10-7W] e_logLHeII4687 [0/21]?=-1 logLHeII4687
uncertainty (HEII4687_ERRc)
2742- 2752 F11.4 0.1nm e_EWHeII4687 [0/89]?=-1 EWHeII4687 uncertainty
(HEII4687_ERRd)
2754- 2764 F11.4 0.1nm e_FcHeII4687 [0.01/24]?=-1 FcHeII4687
uncertainty (HEII4687_ERRe)
2766- 2776 F11.4 0.1nm e_pkbHeII4687 [0/24]?=-1 pkbHeII4687 uncertainty
(HEII4687BRERRa)
2778- 2788 F11.4 km/s e_FWHMbHeII4687 [0/17649]?=-1 FWHMbHeII4687
uncertainty (HEII4687BRERRb)
2790- 2800 F11.4 [10-7W] e_logLbHeII4687 [0/21.5]?=-1 logLbHeII4687
uncertainty (HEII4687BRERRc)
2802- 2812 F11.4 0.1nm e_EWbHeII4687 [0/89]?=-1 EWbHeII4687 uncertainty
(HEII4687BRERRd)
2814- 2824 F11.4 0.1nm e_FcbHeII4687 [0/25]?=-1 FcbHeII4687 uncertainty
(HEII4687BRERRe)
2826- 2836 E11.5 0.1nm e_pkOIII5007 [0.01/21]?=-1 pkOIII5007
uncertainty (OIII5007_ERRa)
2838- 2848 E11.5 km/s e_FWHMOIII5007 [0/1076]?=-1 FWHMOIII5007
uncertainty (OIII5007_ERRb)
2850- 2860 E11.5 [10-7W] e_logLOIII5007 [0/23]?=-1 logLOIII5007
uncertainty (OIII5007_ERRc)
2862- 2872 E11.5 0.1nm e_EWOIII5007 [0/3.5e+6]?=-1 EWOIII5007
uncertainty (OIII5007_ERRd)
2874- 2884 E11.5 0.1nm e_FcOIII5007 [0.007/10]?=-1 FcOIII5007
uncertainty (OIII5007_ERRe)
2886- 2896 E11.5 0.1nm e_pkOIII5007c [0.01/10]?=-1 pkOIII5007c
uncertainty (OIII5007C_ERRa)
2898- 2908 E11.5 km/s e_FWHMOIII5007c [0/553]?=-1 FWHMOIII5007c
uncertainty (OIII5007C_ERRb)
2910- 2920 E11.5 [10-7W] e_logLOIII5007c [0/24]?=-1 logLOIII5007c
uncertainty (OIII5007C_ERRc)
2922- 2932 E11.5 0.1nm e_EWOIII5007c [0/3.5e+6]?=-1 EWOIII5007c
uncertainty (OIII5007C_ERRd)
2934- 2944 E11.5 0.1nm e_FcOIII5007c [0.008/10]?=-1 FcOIII5007c
uncertainty (OIII5007C_ERRe)
2946- 2956 F11.4 0.1nm e_pkCAII3934 [0.08/32]?=-1 pkCAII3934
uncertainty (CAII3934_ERRa)
2958- 2968 F11.4 km/s e_FWHMCAII3934 [0/706]?=-1 FWHMCAII3934
uncertainty (CAII3934_ERRb)
2970- 2980 F11.4 [10-7W] e_logLCAII3934 [0.01/22]?=-1 logLCAII3934
uncertainty (CAII3934_ERRc)
2982- 2992 F11.4 0.1nm e_EWCAII3934 [0/94517]?=-1 EWCAII3934
uncertainty (CAII3934_ERRd)
2994- 3004 F11.4 0.1nm e_FcCAII3934 [0.08/32]?=-1 FcCAII3934
uncertainty (CAII3934_ERRe)
3006- 3014 F9.4 0.1nm e_pkOII3728 [0.01/26]?=-1 pkOII3728
uncertainty (OII3728_ERRa)
3016- 3024 F9.4 km/s e_FWHMOII3728 [0/706]?=-1 FWHMOII3728
uncertainty (OII3728_ERRb)
3026- 3034 F9.4 [10-7W] e_logLOII3728 [0/21.5]?=-1 logLOII3728
uncertainty (OII3728_ERRc)
3036- 3044 F9.4 0.1nm e_EWOII3728 [0/191]?=-1 EWOII3728 uncertainty
(OII3728_ERRd)
3046- 3054 F9.4 0.1nm e_FcOII3728 [0.01/26]?=-1 FcOII3728
uncertainty (OII3728_ERRe)
3056- 3066 E11.5 0.1nm e_pkNEV3426 [0.01/24]?=-1 pkNEV3426
uncertainty (NEV3426_ERRa)
3068- 3078 E11.5 km/s e_FWHMNEV3426 [0/6373]?=-1 FWHMNEV3426
uncertainty (NEV3426_ERRb)
3080- 3090 E11.5 [10-7W] e_logLNEV3426 [0/21.4]?=-1 logLNEV3426
uncertainty (NEV3426_ERRc)
3092- 3102 E11.5 0.1nm e_EWNEV3426 [0/7.3e+6]?=-1 EWNEV3426
uncertainty (NEV3426_ERRd)
3104- 3114 E11.5 0.1nm e_FcNEV3426 [0.003/30]?=-1 FcNEV3426
uncertainty (NEV3426_ERRe)
3116- 3125 F10.4 0.1nm e_pkMGII [0.07/20]?=-1 pkMGII uncertainty
(MGII_ERRa)
3127- 3136 F10.4 km/s e_FWHMMGII [4.9/5739]?=-1 FWHMMGII
uncertainty (MGII_ERRb)
3138- 3147 F10.4 [10-7W] e_logLMGII [0.001/1]?=-1 logLMGII uncertainty
(MGII_ERRc)
3149- 3158 F10.4 0.1nm e_EWMGII [0.09/648]?=-1 EWMGII uncertainty
(MGII_ERRd)
3160- 3169 F10.4 0.1nm e_FcMGII [0.04/16]?=-1 FcMGII uncertainty
(MGII_ERRe)
3171- 3180 F10.4 0.1nm e_pkbMGII [0.06/29]?=-1 pkbMGII uncertainty
(MGIIBRERRa)
3182- 3191 F10.4 km/s e_FWHMbMGII [0.001/5739]?=-1 FWHMbMGII
uncertainty (MGIIBRERRb)
3193- 3202 F10.4 [10-7W] e_logLbMGII [0.001/21.2]?=-1 logLbMGII
uncertainty (MGIIBRERRc)
3204- 3213 F10.4 0.1nm e_EWbMGII [0.1/645]?=-1 EWbMGII uncertainty
(MGIIBRERRd)
3215- 3224 F10.4 0.1nm e_FcbMGII [0.06/24]?=-1 FcbMGII uncertainty
(MGIIBRERRe)
3226- 3236 E11.5 0.1nm e_pkCIII [0.05/29]?=-1 pkCIII uncertainty
(CIIIALLERRa)
3238- 3248 E11.5 km/s e_FWHMCIII [0.0009/7034]?=-1 FWHMCIII
uncertainty (CIIIALLERRb)
3250- 3260 E11.5 [10-7W] e_logLCIII [0.001/3.2]?=-1 logLCIII
uncertainty (CIIIALLERRc)
3262- 3272 E11.5 0.1nm e_EWCIII [6.4e-15/5.1e+7]?=-1 EWCIII
uncertainty (CIIIALLERRd)
3274- 3284 E11.5 0.1nm e_FcCIII [0.05/29]?=-1 FcCIII uncertainty
(CIIIALLERRe)
3286- 3296 F11.4 0.1nm e_pkbCIII [0.05/29]?=-1 pkbCIII uncertainty
(CIIIBRERRa)
3298- 3308 F11.4 km/s e_FWHMbCIII [0.0003/15821]?=-1 FWHMbCIII
uncertainty (CIIIBRERRb)
3310- 3320 F11.4 [10-7W] e_logLbCIII [0.001/20.6]?=-1 logLbCIII
uncertainty (CIIIBRERRc)
3322- 3332 F11.4 0.1nm e_EWbCIII [0/159]?=-1 EWbCIII uncertainty
(CIIIBRERRd)
3334- 3344 F11.4 0.1nm e_FcbCIII [0.05/29]?=-1 FcbCIII uncertainty
(CIIIBRERRe)
3346- 3356 E11.5 0.1nm e_pkSIII1892 [0/6]?=-1 pkSIII1892 uncertainty
(SIIII1892_ERRa)
3358- 3368 E11.5 km/s e_FWHMSIII1892 [0/5295]?=-1 FWHMSIII1892
uncertainty (SIIII1892_ERRb)
3370- 3380 E11.5 [10-7W] e_logLSIII1892 [0/23]?=-1 logLSIII1892
uncertainty (SIIII1892_ERRc)
3382- 3392 E11.5 0.1nm e_EWSIII1892 [0/5.1e+7]?=-1 EWSIII1892
uncertainty (SIIII1892_ERRd)
3394- 3404 E11.5 0.1nm e_FcSIII1892 [0/6]?=-1 FcSIII1892 uncertainty
(SIIII1892_ERRe)
3406- 3415 F10.4 0.1nm e_pkAlIII1857 [0/6]?=-1 pkAlIII1857 uncertainty
(ALIII1857_ERRa)
3417- 3426 F10.4 km/s e_FWHMAlIII1857 [0/4942]?=-1 FWHMAlIII1857
uncertainty (ALIII1857_ERRb)
3428- 3437 F10.4 [10-7W] e_logLAlIII1857 [0/22]?=-1 logLAlIII1857
uncertainty (ALIII1857_ERRc)
3439- 3448 F10.4 0.1nm e_EWAlIII1857 [0/263]?=-1 EWAlIII1857
uncertainty (ALIII1857_ERRd)
3450- 3459 F10.4 0.1nm e_FcAlIII1857 [0/6]?=-1 FcAlIII1857 uncertainty
(ALIII1857_ERRe)
3461- 3470 F10.4 0.1nm e_pkNIII1750 [0/18]?=-1 pkNIII1750 uncertainty
(NIII1750_ERRa)
3472- 3481 F10.4 km/s e_FWHMNIII1750 [0/5295]?=-1 FWHMNIII1750
uncertainty (NIII1750_ERRb)
3483- 3492 F10.4 [10-7W] e_logLNIII1750 [0/21.4]?=-1 logLNIII1750
uncertainty (NIII1750_ERRc)
3494- 3503 F10.4 0.1nm e_EWNIII1750 [0/8]?=-1 EWNIII1750 uncertainty
(NIII1750_ERRd)
3505- 3514 F10.4 0.1nm e_FcNIII1750 [0/18]?=-1 FcNIII1750 uncertainty
(NIII1750_ERRe)
3516- 3526 E11.5 0.1nm e_pkCIV [0.04/24]?=-1 pkCIV uncertainty
(CIV_ERRa)
3528- 3538 E11.5 km/s e_FWHMCIV [16/5605]?=-1 FWHMCIV uncertainty
(CIV_ERRb)
3540- 3550 E11.5 [10-7W] e_logLCIV [0.001/23.2]?=-1 logLCIV
uncertainty (CIV_ERRc)
3552- 3562 E11.5 0.1nm e_EWCIV [0.1/1.2e+7]?=-1 EWCIV uncertainty
(CIV_ERRd)
3564- 3574 E11.5 0.1nm e_FcCIV [0.02/21]?=-1 FcCIV uncertainty
(CIV_ERRe)
3576- 3586 E11.5 0.1nm e_pkHeII1640 [0/11.3]?=-1 pkHeII1640 uncertainty
(HEII1640_ERRa)
3588- 3598 E11.5 km/s e_FWHMHeII1640 [0/7060]?=-1 FWHMHeII1640
uncertainty (HEII1640_ERRb)
3600- 3610 E11.5 [10-7W] e_logLHeII1640 [0/23.7]?=-1 logLHeII1640
uncertainty (HEII1640_ERRc)
3612- 3622 E11.5 0.1nm e_EWHeII1640 [0/1.4e+6]?=-1 EWHeII1640
uncertainty (HEII1640_ERRd)
3624- 3634 E11.5 0.1nm e_FcHeII1640 [3.6e-12/13]?=-1 FcHeII1640
uncertainty (HEII1640_ERRe)
3636- 3647 F12.4 0.1nm e_pkbHeII1640 [0/14]?=-1 pkbHeII1640 uncertainty
(HEII1640BRERRa)
3649- 3660 F12.4 km/s e_FWHMbHeII1640 [0/7060]?=-1 FWHMbHeII1640
uncertainty (HEII1640BRERRb)
3662- 3673 F12.4 [10-7W] e_logLbHeII1640 [0/22.8]?=-1 logLbHeII1640
uncertainty (HEII1640BRERRc)
3675- 3686 F12.4 0.1nm e_EWbHeII1640 [0/410731]?=-1 EWbHeII1640
uncertainty (HEII1640BRERRd)
3688- 3699 F12.4 0.1nm e_FcbHeII1640 [0/14]?=-1 FcbHeII1640 uncertainty
(HEII1640BRERRe)
3701- 3711 E11.5 0.1nm e_pkSiIVOIV [0.004/17]?=-1 pkSiIVOIV
uncertainty (SIIVOIVERRa)
3713- 3723 E11.5 km/s e_FWHMSiIVOIV [0/5467]?=-1 FWHMSiIVOIV
uncertainty (SIIVOIVERRb)
3725- 3735 E11.5 [10-7W] e_logLSiIVOIV [0/26]?=-1 logLSiIVOIV uncertainty
(SIIVOIVERRc)
3737- 3747 E11.5 0.1nm e_EWSiIVOIV [0/3.5e+8]?=-1 EWSiIVOIV
uncertainty (SIIVOIVERRd)
3749- 3759 E11.5 0.1nm e_FcSiIVOIV [0.004/17]?=-1 FcSiIVOIV
uncertainty (SIIVOIVERRe)
3761- 3771 E11.5 0.1nm e_pkOI1304 [0/11]?=-1 pkOI1304 uncertainty
(OI1304_ERRa)
3773- 3783 E11.5 km/s e_FWHMOI1304 [0/5295]?=-1 FWHMOI1304
uncertainty (OI1304_ERRb)
3785- 3795 E11.5 [10-7W] e_logLOI1304 [0/24.4]?=-1 logLOI1304
uncertainty (OI1304_ERRc)
3797- 3807 E11.5 0.1nm e_EWOI1304 [0/3.4e+6]?=-1 EWOI1304
uncertainty (OI1304_ERRd)
3809- 3819 E11.5 0.1nm e_FcOI1304 [3.5e-12/11]?=-1 FcOI1304
uncertainty (OI1304_ERRe)
3821- 3831 E11.5 0.1nm e_pkLya [0.04/25]?=-1 pkLya uncertainty
(LYA_ERRa)
3833- 3843 E11.5 km/s e_FWHMLya [0.1/11456]?=-1 FWHMLya
uncertainty (LYA_ERRb)
3845- 3855 E11.5 [10-7W] e_logLLya [0.001/22]?=-1 logLLya uncertainty
(LYA_ERRc)
3857- 3867 E11.5 0.1nm e_EWLya [0.8/3.9e+6]?=-1 EWLya uncertainty
(LYA_ERRd)
3869- 3879 E11.5 0.1nm e_FcLya [0.03/24]?=-1 FcLya uncertainty
(LYA_ERRe)
3881- 3890 F10.4 0.1nm e_pkNV1240 [0/7]?=-1 pkNV1240 uncertainty
(NV1240_ERRa)
3892- 3901 F10.4 km/s e_FWHMNV1240 [0/3530]?=-1 FWHMNV1240
uncertainty (NV1240_ERRb)
3903- 3912 F10.4 [10-7W] e_logLNV1240 [0/23]?=-1 logLNV1240 uncertainty
(NV1240_ERRc)
3914- 3923 F10.4 0.1nm e_EWNV1240 [0.0003/140]?=-1 EWNV1240
uncertainty (NV1240_ERRd)
3925- 3934 F10.4 0.1nm e_FcNV1240 [0/7]?=-1 FcNV1240 uncertainty
(NV1240_ERRe)
3936- 3942 F7.4 [Msun] logBHCIV [7/10.4]?=0 Single-epoch BH mass
based on CIV
(Vestergaard & Peterson
2006ApJ...641..689V 2006ApJ...641..689V)
(LOGBHCIVVP06)
3944- 3950 F7.4 [Msun] e_logBHCIV [0.002/1.1]?=-1 logBHCIV
uncertainty (LOGBHCIVVP06_ERR)
3952- 3958 F7.4 [Msun] logBHMgII [6.4/10.1]?=0 Single-epoch BH mass
based on MgII
(Shen+ 2011, J/ApJS/194/45)
(LOGBHMGIIS11)
3960- 3966 F7.4 [Msun] e_logBHMgII [0.003/2.4]?=-1 logBHMgII
uncertainty (LOGBHMGIIS11_ERR)
3968- 3973 F6.4 [Msun] logBHHb [6.9/9.4]?=0 Single-epoch BH mass
based on Hβ
(Vestergaard & Peterson
2006ApJ...641..689V 2006ApJ...641..689V) (LOGBHHBVP6)
3975- 3981 F7.4 [Msun] e_logBHHb [0.003/1.7]?=-1 logBHHb
uncertainty (LOGBHHBVP06_ERR)
3983- 3990 F8.4 mag iMag [-28.5/-18.3] Absolute i-band
magnitude; undereddened for
Galactic extinction (MI)
3992- 3999 F8.4 mag iMagZ2 [-29.1/-18.9] K-corrected absolute
i-band magnitude
(normalized at z=2) (MI_Z2)
4001- 4011 E11.5 cW/m2/nm rmsC1700 [2.8e-19/6.1e-17]?=-1
(Maximum-likelihood) rms
variability for rest 1700Å
continuum in erg/s/cm2/Å
(RMSMLC1700)
4013- 4023 E11.5 cW/m2/nm e_rmsC1700 [3.8e-20/7.6e-18]?=-1 rmsC1700
uncertainty (RMSMLC1700_ERR)
4025- 4031 F7.4 --- SNRC1700 [5/8]?=-1 rmsC1700/e_rmsC1700
(SNRRMSML_C1700)
4033- 4039 F7.4 --- FracRMSC1700 [0.01/0.93]?=-1 Fractional (with
respect to average) rms
variability for rest 1700Å
continuum (RMSMLFRAC_C1700)
4041- 4047 F7.4 --- e_FracRMSC1700 [0.002/0.2]?=-1 FracRMSC1700
uncertainty (RMSMLFRACC1700ERR)
4049- 4055 F7.4 --- NC1700 [23.5/32]?=-1 Effective number of
good data points in estimating
rmsC1700 (NRMSGOOD_C1700)
4057- 4064 F8.4 --- SNR2C1700 [10/244]?=-1 Alternative measure
of the variability for rest
1700Å continuum (SNR2_C1700)
4066- 4076 E11.5 cW/m2/nm rmsC3000 [2e-19/3.5e-17]?=-1
(Maximum-likelihood) rms
variability for rest 3000Å
continuum in erg/s/cm2/Å
(RMSMLC3000)
4078- 4088 E11.5 cW/m2/nm e_rmsC3000 [3.2e-20/4.4e-18]?=-1 rmsC3000
uncertainty (RMSMLC3000_ERR)
4090- 4096 F7.4 --- SNRC3000 [4.8/8]?=-1 rmsC3000/e_rmsC3000
(SNRRMSML_C3000)
4098- 4104 F7.4 --- FracRMSC3000 [0.009/1.1]?=-1 Fractional (with
respect to average) rms
variability for rest 3000Å
continuum (RMSMLFRAC_C3000)
4106- 4112 F7.4 --- e_FracRMSC3000 [0.001/0.2]?=-1 FracRMSC3000
uncertainty (RMSMLFRACC3000ERR)
4114- 4120 F7.4 --- NC3000 [21.8/32]?=-1 Effective number of
good data points in estimating
rmsC3000 (NRMSGOOD_C3000)
4122- 4129 F8.4 --- SNR2C3000 [9/287]?=-1 Alternative measure of
the variability for rest 3000Å
continuum (SNR2_C3000)
4131- 4141 E11.5 cW/m2/nm rmsC5100 [3.3e-19/1.1e-17]?=-1
(Maximum-likelihood) rms
variability for rest 5100Å
continuum in erg/s/cm2/Å
(RMSMLC5100)
4143- 4153 E11.5 cW/m2/nm e_rmsC5100 [4.4e-20/1.4e-18]?=-1 rmsC5100
uncertainty (RMSMLC5100_ERR)
4155- 4161 F7.4 --- SNRC5100 [5.3/8]?=-1 rmsC5100/e_rmsC5100
(SNRRMSML_C5100)
4163- 4169 F7.4 --- FracRMSC5100 [0.02/0.9]?=-1 Fractional (with
respect to average) rms
variability for rest 5100Å
continuum (RMSMLFRAC_C5100)
4171- 4177 F7.4 --- e_FracRMSC5100 [0.002/0.2]?=-1 FracRMSC5100
uncertainty (RMSMLFRACC5100ERR)
4179- 4185 F7.4 --- NC5100 [21/32]?=-1 Effective number of
good data points in estimating
rmsC5100 (NRMSGOOD_C5100)
4187- 4194 F8.4 --- SNR2C5100 [8.3/340]?=-1 Alternative measure
of the variability for rest
5100Å continuum (SNR2_C5100)
4196- 4202 F7.4 mW/m2 rmsHa [0/1.1]?=-1 (Maximum-likelihood)
rms variability for broad HΑ
in erg/s/cm2 (RMSMLHA)
4204- 4212 F9.4 mW/m2 e_rmsHa [0/6918]?=-1 rmsHa uncertainty
(RMSMLHA_ERR)
4214- 4220 F7.4 --- SNRHa [0/8]?=-1 rmsHa/e_rmsHa
(SNRRMSML_HA)
4222- 4228 F7.4 --- FracRMSHa [0.01/37]?=-1 Fractional (with
respect to average) rms
variability for broad Hα
(RMSMLFRAC_HA)
4230- 4240 F11.4 --- e_FracRMSHa [0.002/100031]?=-1 FracRMSHa
uncertainty (RMSMLFRACHAERR)
4242- 4248 F7.4 --- NHa [0/32]?=-1 Effective number of
good data points in estimating
rmsHa (NRMSGOOD_HA)
4250- 4257 F8.4 --- SNR2Ha [-5.6/122]?=-1 Alternative measure of
the variability for broad Hα
(SNR2_HA)
4259- 4265 F7.4 mW/m2 rmsHb [0/2.3]?=-1 (Maximum-likelihood)
rms variability for broad Hβ
in erg/s/cm2 (RMSMLHB)
4267- 4275 F9.4 mW/m2 e_rmsHb [0/6011]?=-1 rmsHb uncertainty
(RMSMLHB_ERR)
4277- 4283 F7.4 --- SNRHb [0/8]?=-1 rmsHb/e_rmsHb
(SNRRMSML_HB)
4285- 4291 F7.4 --- FracRMSHb [0/23]?=-1 Fractional (with
respect to average) rms
variability for broad Hβ
(RMSMLFRAC_HB)
4293- 4303 E11.5 --- e_FracRMSHb [0.0009/5.8e+15]?=-1 FracRMSHb
uncertainty (RMSMLFRACHBERR)
4305- 4311 F7.4 --- NHb [0/32]?=-1 Effective number of
good data points in estimating
rmsHb (NRMSGOOD_HB)
4313- 4319 F7.4 --- SNR2Hb [-5.6/55]?=-1 Alternative measure of
the variability for broad Hβ
(SNR2_HB)
4321- 4327 F7.4 mW/m2 rmsHeII4687 [0/3.1]?=-1 (Maximum-likelihood)
rms variability for broad HeII4687
in erg/s/cm2 (RMSMLHEII4687)
4329- 4337 F9.4 mW/m2 e_rmsHeII4687 [0/6680]?=-1 rmsHeII4687
uncertainty (RMSMLHEII4687_ERR)
4339- 4345 F7.4 --- SNRHeII4687 [0/7.7]?=-1
RmsHeII4687/e_rmsHeII4687
(SNRRMSML_HEII4687)
4347- 4353 F7.4 --- fRMSHeII4687 [0/36.2]?=-1 Fractional (with
respect to average) rms
variability for broad HeII4687
(RMSMLFRAC_HEII4687)
4355- 4365 E11.5 --- e_fRMSHeII4687 [0.0001/4.3e+15]?=-1 fRMSHeII4687
uncertainty
(RMSMLFRACHEII4687ERR)
4367- 4373 F7.4 --- NHeII4687 [0/31]?=-1 Effective number of
good data points in estimating
rmsHeII4687 (NRMSGOOD_HEII4687)
4375- 4381 F7.4 --- SNR2HeII4687 [-5.6/34]?=-1 Alternative measure of
the variability for broad HeII4687
(SNR2_HEII4687)
4383- 4389 F7.4 mW/m2 rmsMgII [0/16]?=-1 (Maximum-likelihood)
rms variability for broad MgII in
erg/s/cm2 (RMSMLMGII)
4391- 4399 F9.4 mW/m2 e_rmsMgII [0/4877]?=-1 rmsMgII uncertainty
(RMSMLMGII_ERR)
4401- 4407 F7.4 --- SNRMgII [0/8]?=-1 rmsMgII/e_rmsMgII
(SNRRMSML_MGII)
4409- 4415 F7.4 --- FracRMSMgII [0/78]?=-1 Fractional (with
respect to average) rms
variability for broad MgII
(RMSMLFRAC_MGII)
4417- 4427 E11.5 --- e_FracRMSMgII [0.0001/3.1e+15]?=-1 FracRMSMgII
uncertainty (RMSMLFRACMGIIERR)
4429- 4435 F7.4 --- NMgII [0/32]?=-1 Effective number of
good data points in estimating
rmsMgII (NRMSGOOD_MGII)
4437- 4444 F8.4 --- SNR2MGII [-5.6/540]?=-1 Alternative measure
of the variability for broad
HeII4687 (SNR2_MGII)
4446- 4454 F9.4 mW/m2 rmsCIII [0/1421]?=-1 (Maximum-likelihood)
rms variability for broad CIII in
erg/s/cm2 (RMSMLCIII)
4456- 4464 F9.4 mW/m2 e_rmsCIII [0/6190]?=-1 rmsCIII uncertainty
(RMSMLCIII_ERR)
4466- 4472 F7.4 --- SNRCIII [0/8]?=-1 RmsCIII/e_rmsCIII
(SNRRMSML_CIII)
4474- 4480 F7.4 --- FracRMSCIII [0/83]?=-1 Fractional (with
respect to average) rms
variability for broad CIII
(RMSMLFRAC_CIII)
4482- 4492 F11.4 --- e_FracRMSCIII [0.0002/536109]?=-1 FracRMSCIII
uncertainty (RMSMLFRACCIIIERR)
4494- 4500 F7.4 --- NCIII [0/32]?=-1 Effective number of
good data points in estimating
rmsCIII (NRMSGOOD_CIII)
4502- 4511 F10.4 --- SNR2CIII [-5.6/13474]?=-1 Alternative measure
of the variability for broad
CIII (SNR2_CIII)
4513- 4520 F8.4 mW/m2 rmsCIV [0/302]?=-1 (Maximum-likelihood)
rms variability for broad CIV in
erg/s/cm2 (RMSMLCIV)
4522- 4530 F9.4 mW/m2 e_rmsCIV [0/5465]?=-1 rmsCIV uncertainty
(RMSMLCIV_ERR)
4532- 4538 F7.4 --- SNRCIV [0/8]?=-1 RmsCIV/e_rmsCIV
(SNRRMSML_CIV)
4540- 4546 F7.4 --- FracRMSCIV [0/62]?=-1 Fractional (with
respect to average) rms
variability for broad CIV
(RMSMLFRAC_CIV)
4548- 4558 E11.5 --- e_FracRMSCIV [0.0004/9.7e+15]?=-1 FracRMSCIV
uncertainty (RMSMLFRACCIVERR)
4560- 4566 F7.4 --- NCIV [0/32]?=-1 Effective number of
good data points in estimating
rmsCIV (NRMSGOOD_CIV)
4568- 4576 F9.4 --- SNR2CIV [-5.6/1959]?=-1 Alternative measure
of the variability for broad CIV
(SNR2_CIV)
4578- 4586 F9.4 mW/m2 rmsLya [0/2943]?=-1 (Maximum-likelihood)
rms variability for broad Lyα
in erg/s/cm2 (RMSMLLYA)
4588- 4596 F9.4 mW/m2 e_rmsLya [0/4980]?=-1 rmsLya uncertainty
(RMSMLLYA_ERR)
4598- 4604 F7.4 --- SNRLya [0/8]?=-1 RmsLya/e_rmsLya
(SNRRMSML_LYA)
4606- 4613 F8.4 --- FracRMSLya [0/112]?=-1 Fractional (with
respect to average) rms
variability for broad Lyα
(RMSMLFRAC_LYA)
4615- 4624 F10.4 --- e_FracRMSLya [0/46855]?=-1 FracRMSLya
uncertainty (RMSMLFRACLYAERR)
4626- 4632 F7.4 --- NLya [0/32]?=-1 Effective number of
good data points in estimating
rmsLya (NRMSGOOD_LYA)
4634- 4643 F10.4 --- SNR2Lya [-5.6/85677]?=-1 Alternative measure
of the variability for broad
Lyα (SNR2_LYA)
4645- 4653 F9.4 0.1nm pkNII6585 [6581/6593]?=0 NII6585 peak
wavelength in Å (NII6585a)
4655- 4663 F9.4 km/s FWHMNII6585 [162/1225]?=0 NII6585 FWHM (NII6585b)
4665- 4673 F9.4 [10-7W] logLNII6585 [39.4/42]?=0 Log of NII6585 line
luminosity in erg/s (NII6585c)
4675- 4683 F9.4 0.1nm EWNII6585 [0.9/59]?=0 Rest-frame
equivalent width of NII6585 in Å
(NII6585d)
4685- 4693 F9.4 0.1nm FcNII6585 [6581/6593]?=0 NII6585 top 50%
flux centroid in Å (NII6585e)
4695- 4702 F8.4 0.1nm e_pkNII6585 [0.01/3]?=-1 pkNII6585
uncertainty (NII6585_ERRa)
4704- 4711 F8.4 km/s e_FWHMNII6585 [1/112]?=-1 FWHMNII6585
uncertainty (NII6585_ERRb)
4713- 4720 F8.4 [10-7W] e_logLNII6585 [0.002/20.6]?=-1 logLNII6585
uncertainty (NII6585_ERRc)
4722- 4729 F8.4 0.1nm e_EWNII6585 [0.03/7]?=-1 EWNII6585
uncertainty (NII6585_ERRd)
4731- 4738 F8.4 0.1nm e_FcNII6585 [0.01/3]?=-1 FcNII6585
uncertainty (NII6585_ERRe)
4740- 4747 F8.4 0.1nm EWFeII [7.9/366]?=0 Rest-frame
equivalent width of UV FeII
within 2250-2650Å in Å
(REWFE2250_2650)
4749- 4755 F7.4 0.1nm e_EWFeII [0/46]?=-1 EWFeII uncertainty
(REWFE22502650ERR)
4757- 4763 F7.4 [10-7W] logLBol [42.9/47.6]?=0 Log of bolometric
luminosity in erg/s
4765- 4771 F7.4 [10-7W] e_logLBol [0.0001/0.03]?=-1 logLBol
uncertainty (LOGLBOL_ERR)
4773- 4779 F7.4 [Msun] logBH [6.9/10.1]?=0 Fiducial single
epoch BH mass
4781- 4787 F7.4 [Msun] e_logBH [0.003/2]?=-1 logBH uncertainty
(LOGBH_ERR)
4789- 4796 F8.4 --- logEdd [-3.1/0.9]?=-99 Eddington ratio
based on fiducial single-epoch
BH mass (LOGEDD_RATIO)
4798- 4804 F7.4 --- e_logEdd [0.0033/2]?=-1 logEdd
uncertainty (LOGEDDRATIOERR)
4806- 4811 F6.4 --- FracH5100 [0/0.86] Host fraction at
rest-frame 5100Å from
Shen+ (2015, J/ApJ/805/96)
(FH5100)
4813- 4820 F8.4 km/s sigma [43/380]?=0 Host stellar velocity
dispersion from
Shen+ (2015, J/ApJ/805/96)
4822- 4828 F7.4 km/s e_sigma [1.8/75]?=-1 sigma uncertainty
(SIGMA_ERR)
4830 I1 --- fesigma [0/1] sigma warning: 1 if
e_sigma may underestimate the
systematic uncertainty
(SIGMAERRWARNING)
--------------------------------------------------------------------------------
Note (1): Broad absorption-line flag as follows:
0 = nonBAL or no coverage (754 occurrences);
1 = HiBAL: quasars with CIV BAL toughs only (72 occurrences)
2 = LoBAL: quasars with both CIV and MgII/AlIII BALs (21 occurrences)
3 = FeLoBAL: LoBAL quasars with additional Fe BAL troughs (2 occurrences)
Note (2): FIRST radio morphology type as follows:
0 = FIRST undetected or not in FIRST footprint (828 occurrences)
1 = core-dominant (15 occurrences)
2 = lobe-dominant (6 occurrences)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: zabs.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 I3 --- RMID [0/848]? Object ID of SDSS-RM quasars
5- 16 F12.8 deg RAdeg Right ascension (J2000)
18- 28 F11.8 deg DEdeg Declination (J2000)
30- 38 F9.5 --- zabs1 [0.35/2.6]?=-1 First absorber redshift of
narrow absorption-line system
40- 48 F9.5 --- zabs2 [0/2.7]?=-1 Second absorber redshift of narrow
absorption-line system
50- 58 F9.5 --- zabs3 [0/2.7]?=-1 Third absorber redshift of narrow
absorption-line system
60- 68 F9.5 --- zabs4 [0/2.7]?=-1 Fourth absorber redshift of narrow
absorption-line system
70- 78 F9.5 --- zabs5 [0/2.4]?=-1 Fifth absorber redshift of narrow
absorption-line system
80- 88 F9.5 --- zabs6 [0/2.7]?=-1 Sixth absorber redshift of narrow
absorption-line system
90- 98 F9.5 --- zabs7 [0/2.7]?=-1 Seventh absorber redshift of
narrow absorption-line system
100- 108 F9.5 --- zabs8 [0/2.3]?=-1 Eighth absorber redshift of narrow
absorption-line system
110- 118 F9.5 --- zabs9 [0/2.4]?=-1 Ninth absorber redshift of narrow
absorption-line system
120- 128 F9.5 --- zabs10 [0/2.7]?=-1 Tenth absorber redshift of narrow
absorption-line system
--------------------------------------------------------------------------------
History:
From electronic version of the journal
(End) Emmanuelle Perret [CDS] 06-Jan-2022