J/MNRAS/459/1602 AGN sample in the northern XMM-XXL field (Liu+, 2016)
X-ray spectral properties of the AGN sample in the northern XMM-XXL field.
Liu Z., Merloni A., Georgakakis A., Menzel M.-L., Buchner J., Nandra K.,
Salvato M., Shen Y., Brusa M., Streblyanska A.
<Mon. Not. R. Astron. Soc., 459, 1602-1625 (2016)>
=2016MNRAS.459.1602L 2016MNRAS.459.1602L (SIMBAD/NED BibCode)
ADC_Keywords: Surveys ; Active gal. nuclei ; X-ray sources
Keywords: galaxies: active - X-rays: galaxies
Abstract:
In this paper we describe and publicly release a catalogue consisting
of 8445 point-like X-ray sources detected in the XMM-XXL north survey.
For the 2512 AGN which have reliable spectroscopy from SDSS-III/BOSS,
we present the X-ray spectral fitting which has been computed with a
Bayesian approach. We have also applied an X-ray spectral stacking
method to different sub-samples, selected on the basis of the AGN
physical properties (L2-10keV, z, MBH, λEdd and NH).
We confirm the well-known Iwasawa-Taniguchi effect in our
luminosity-redshift sub-samples, and argue that such an effect is
due to a decrease in the covering factor of a distant obscuring
'torus' with increasing X-ray luminosity. By comparing the
distribution of the reflection fraction, the ratio of the
normalization of the reflected component to the direct radiation, we
find that the low-luminosity, low-redshift sub-sample had
systematically higher reflection fraction values than the
high-redshift, high-luminosity one. On the other hand, no significant
difference is found between samples having similar luminosity but
different redshift, suggesting that the structure of the torus does
not evolve strongly with redshift. Contrary to previous works, we do
not find evidence for an increasing photon index at high Eddington
ratio. This may be an indication that the structure of the accretion
disc changes as the Eddington ratio approaches unity. Comparing our
X-ray spectral analysis results with the optical spectral
classification, we find that ∼20 per cent of optical type-1 AGN show
an X-ray absorbing column density higher than 1021.5cm-2, and
about 50 per cent of type-2 AGN have an X-ray absorbing column density
less than 1021.5cm-2. We suggest that the excess X-ray absorption
shown in the high-luminosity optical type-1 AGN can be due to
small-scale dust-free gas within (or close to) the broad-line region,
while in the low-luminosity ones it can be due to a clumpy torus with
a large covering factor.
Description:
The X-ray selected AGN sample used in this paper is compiled from the
wide-area and shallow XXL-N survey (Pierre et al., 2016, Cat. IX/49).
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
catalog.dat 2293 8445 XXL X-ray detected source catalog
tablea1.dat 77 211 Log of the XMM observations used to construct
the X-ray source catalogue in the equatorial
XMM-XXL field
table2.dat 541 2512 Properties of sources with reliable redshift
measurement and optical classification
table3.dat 163 1786 The optical properties of the type-1 AGN in
our sample
--------------------------------------------------------------------------------
See also:
IX/49 : XXL Survey: First results (Pierre+, 2016)
J/MNRAS/457/110 : Northern XMM-XXL field AGN catalog (Menzel+, 2016)
Byte-by-byte Description of file: catalog.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
Source detection parameters
--------------------------------------------------------------------------------
1- 8 A8 --- UXID Unique X-ray source identification
string (UXID)
10- 12 I3 --- BoxIDsrc identification number of a source on
individual pointings or observations
in the case of projects with a
single XMM observation (BOXIDSRC)
14- 20 F7.4 deg RAdeg X-ray source right ascension before
correcting for systematic offsets
(J2000) (RA)
22- 29 F8.5 deg DEdeg X-ray source declination before
correcting for systematic offsets
(J2000) (DEC)
31- 35 F5.3 arcsec e_Pos Positional uncertainty of the source
position (RADEC_ERR)
37- 42 I6 ct ctTotF70 ?=-99 Full band counts at the source
position on the PN camera within the
70 per cent EEF ellipse
(CNTTOTALFULL_70)
44- 51 F8.3 --- bkgTotF70 ?=-99.99 Expected number of full
band background counts at the source
position from all EPIC cameras
within the 70 per cent EEF ellipse
(BKGTOTALFULL_70)
53- 64 E12.6 s expTotF70 ?=-99.99 Full band exposure time at
the source position from all EPIC
cameras (EXPTOTALFULL_70) (1)
66- 75 F10.6 --- probF ?=-99.99 Poisson probability
that the source is spurious in the
full band (PROB_FULL)
77- 81 I5 ct ctPNF70 ?=-99 Full band counts at the source
position on the PN camera within
the 70 per cent EEF ellipse
(CNTPNFULL_70)
83- 93 F11.6 --- bkgPNF70 ?=-99.99 Expected number of full
band background counts at the source
position on the PN camera within
the 70 per cent EEF ellipse
(BKGPNFULL_70)
95- 106 E12.6 s expPNF70 ?=-99.99 PN camera exposure time at
the source position
(EXPPNFULL_70) (1)
108- 112 I5 ct ctM1F70 ?=-99 Full band counts at the source
position on the MOS1 camera within
the 70 per cent EEF ellipse
(CNTM1FULL_70)
114- 124 F11.6 --- bkgM1F70 ?=-99.99 Expected number of full
band background counts at the source
position on the MOS1 camera within
the 70 per cent EEF ellipse
(BKGM1FULL_70)
126- 137 E12.6 s expM1F70 ?=-99.99 MOS1 camera exposure time
at the source position
(EXPM1FULL_70) (1)
139- 143 I5 ct ctM2F70 ?=-99 Full band counts at the source
position on the MOS2 camera within
the 70 per cent EEF ellipse
(CNTM2FULL_70)
145- 155 F11.6 --- bkgM2F70 ?=-99.99 Expected number of full
band background counts at the source
position on the MOS2 camera within
the 70 per cent EEF ellips
(BKGM2FULL_70)
157- 168 E12.6 s expM2F70 ?=-99.99 MOS2 camera exposure
time at the source position
(EXPM2FULL_70) (1)
170- 177 F8.3 --- emlDMLF ?=-9.99 Detection likelihood in the
full band for all EPIC cameras
(EMLDETML_FULL)
179- 190 E12.6 --- emlEMLF ?=-9.99 Likelihood that the source
is extended in the full band
(EMLExtML_FULL) (2)
192- 197 I6 ct ctTotS70 ?=-99 Soft band counts at the source
position from all EPIC cameras
within the 70 per cent EEF ellipse
(CNTTOTALSOFT_70)
199- 206 F8.3 --- bkgTotS70 ?=-99.99 Expected number of soft
band background counts at the source
position from all EPIC cameras
within the 70 per cent EEF ellipse
(BKGTOTALSOFT_70)
208- 219 E12.6 s expTotS70 ?=-99.99 Soft band exposure time at
the source position from all EPIC
cameras (EXPTOTALSOFT_70) (1)
221- 230 F10.6 --- probSOFT ?=-99.99 Poisson probability
that the source is spurious in the
soft band (PROB_SOFT)
232- 236 I5 ct ctPNS70 ?=-99 Soft band counts at the source
position on the PN camera within
the 70 per cent EEF ellipse
(CNTPNSOFT_70)
238- 248 F11.6 --- bkgPNS70 ?=-99.99 Expected number of soft
band background counts at the source
position on the PN camera within the
70 per cent EEF ellipse
(BKGPNSOFT_70)
250- 261 E12.6 s expPNS70 ?=-99.99 PN camera soft-band
exposure time at the source position
(EXPPNSOFT_70) (1)
263- 267 I5 ct ctM1S70 ?=-99 Soft band counts at the source
position on the MOS1 camera within
the 70 per cent EEF ellipse
(CNTM1SOFT_70)
269- 278 F10.6 --- bkgM1S70 ?=-99.99 Expected number of soft
band background counts at the source
position on the MOS1 camera within
the 70 per cent EEF ellipse
(BKGM1SOFT_70)
280- 291 E12.6 s expM1S70 ?=-99.99 MOS1 camera soft-band
exposure time at the source position
(EXPM1SOFT_70) (1)
293- 297 I5 ct ctM2S70 ?=-99 Soft band counts at the source
position on the MOS2 camera within
the 70 per cent EEF ellipse
(CNTM2SOFT_70)
299- 308 F10.6 --- bkgM2S70 ?=-99.99 Expected number of soft
band background counts at the source
position on the MOS2 camera within
the 70 per cent EEF ellipse
(BKGM2SOFT_70)
310- 321 E12.6 s expM2S70 ?=-99.99 MOS2 camera soft-band
exposure time at the source position
(EXPM2SOFT_70) (1)
323- 330 F8.3 --- emlDMLS ?=-9.99 Detection likelihood in the
soft band for all EPIC cameras
(EMLDETMLSOFT)
332- 339 F8.3 --- emlEMLS ?=-9.99 Likelihood that the source
is extended in the soft band
(EMLExtMLSOFT) (2)
341- 345 I5 ct ctTotH70 ?=-99 Hard band counts at the source
position from all EPIC cameras
within the 70 per cent EEF ellipse
(CNTTOTALHARD_70)
347- 354 F8.3 --- bkgTotH70 ?=-99.99 Expected number of hard
band background counts at the source
position from all EPIC cameras
within the 70 per cent EEF ellipse
(BKGTOTALHARD_70)
356- 367 E12.6 s expTotH70 ?=-99.99 Hard band exposure time at
the source position from all EPIC
cameras (EXPTOTALHARD_70) (1)
369- 378 F10.6 --- probHARD ?=-99.99 Poisson probability
that the source is spurious in the
hard band (PROB_HARD)
380- 384 I5 ct ctPNH70 ?=-99 Hard band counts at the source
position on the PN camera within
the 70 per cent EEF ellipse
(CNTPNHARD_70)
386- 395 F10.6 --- bkgPNH70 ?=-99.99 Expected number of hard
band background counts at the source
position on the PN camera within
the 70 per cent EEF ellipse
(BKGPNHARD_70)
397- 408 E12.6 s expPNH70 ?=-99.99 PN camera hard-band
exposure time at the source position
(EXPPNHARD_70) (1)
410- 413 I4 ct ctM1H70 ?=-99 Hard band counts at the source
position on the MOS1 camera within
the 70 per cent EEF ellipse
(CNTM1HARD_70)
415- 424 F10.6 --- bkgM1H70 ?=-99.99 Expected number of hard
band background counts at the
source position on the MOS1 camera
within the 70 per cent EEF ellipse
(BKGM1HARD_70)
426- 437 E12.6 s expM1H70 ?=-99.99 MOS1 camera hard-band
exposure time at the source position
(EXPM1HARD_70) (1)
439- 442 I4 ct ctM2H70 ?=-99 Hard band counts at the source
position on the MOS2 camera within
the 70 per cent EEF ellips
(CNTM2HARD_70)
444- 453 F10.6 --- bkgM2H70 ?=-99.99 Expected number of hard
band background counts at the source
position on the MOS2 camera within
the 70 per cent EEF ellipse
(BKGM2HARD_70)
455- 466 E12.6 s expM2H70 ?=-99.99 MOS2 camera hard-band
exposure time at the source position
(EXPM2HARD_70) (1)
468- 475 F8.3 --- emlDMLH ?=-9.99 Detection likelihood in the
hard band for all EPIC cameras
(EMLDETMLHARD)
477- 484 F8.3 --- emlEMLH ?=-9.99 Likelihood that the source
is extended in the hard band
(EMLExtMLHARD) (2)
486- 490 I5 ct ctTotV70 ?=-99 Very hard band counts at the
source position from all EPIC
cameras within the 70 per cent EEF
ellipse (CNTTOTALVHRD_70)
492- 498 F7.3 --- bkgTotV70 ?=-99.99 Expected number of very
hard band background counts at the
source position from all EPIC
cameras within the 70 per cent EEF
ellipse (BKGTOTALVHRD_70)
500- 511 E12.6 s expTotV70 ?=-99.99 Very hard band exposure
time at the source position from all
EPIC cameras (EXPTOTALVHRD_70) (1)
513- 522 F10.6 --- probVHRD ?=-99.99 Poisson probability
that the source is spurious in the
very hard band (PROB_VHRD)
524- 528 I5 ct ctPNV70 ?=-99 Very hard band counts at the
source position on the PN camera
within the 70 per cent EEF ellipse
(CNTPNVHRD_70)
530- 539 F10.6 --- bkgPNV70 ?=-99.99 Expected number of very
hard band background counts at the
source position on the PN camera
within the 70 per cent EEF ellipse
(BKGPNVHRD_70)
541- 552 E12.6 s expPNV70 ?=-99.99 PN camera very hard band
exposure time at the source position
(EXPPNVHRD_70) (1)
554- 557 I4 ct ctM1V70 ?=-99 Very hard band counts at the
source position on the MOS1 camera
within the 70 per cent EEF ellipse
(CNTM1VHRD_70)
559- 568 F10.6 --- bkgM1V70 ?=-99.99 Expected number of very
hard band background counts at the
source position on the MOS1 camera
within the 70 per cent EEF ellipse
(BKGM1VHRD_70)
570- 581 E12.6 s expM1V70 ?=-99.99 MOS1 camera very hard band
exposure time at the source position
(EXPM1VHRD_70) (1)
583- 586 I4 ct ctM2V70 ?=-99 Very hard band counts at the
source position on the MOS2 camera
within the 70 per cent EEF ellipse
(CNTM2VHRD_70)
588- 597 F10.6 --- bkgM2V70 ?=-99.99 Expected number of very
hard band background counts at the
source position on the MOS2 camera
within the 70 per cent EEF ellipse
(BKGM2VHRD_70)
599- 610 E12.6 s expM2V70 ?=-99.99 MOS2 camera very hard band
exposure time at the source position
(EXPM2VHRD_70) (1)
612- 619 F8.3 --- emlDMLV ?=-9.99 Detection likelihood in the
very hard band for all EPIC cameras
(EMLDETMLVHRD)
621- 627 F7.3 --- emlEMLV ?=-9.99 Likelihood that the source
is extended in the very hard band
(EMLExtMLVHRD) (2)
629- 632 I4 ct ctTotU70 ?=-99 Ultra hard band counts at the
source position from all EPIC
cameras within the 70 per cent EEF
ellipse (CNTTOTALUHRD_70)
634- 639 F6.2 --- bkgTotU70 ?=-99.99 Expected number of
ultra hard band background counts
at the source position from all
EPIC cameras within the 70 per cent
EEF ellipse (BKGTOTALUHRD_70)
641- 652 E12.6 s expTotU70 ?=-99.99 Ultra hard band exposure
time at the source position from
all EPIC cameras
(EXPTOTALUHRD_70) (1)
654- 663 F10.6 --- probU ?=-99.99 Poisson probability
that the source is spurious in the
ultra hard band (PROB_UHRD)
665- 668 I4 ct ctPNU70 ?=-99 Ultra hard band counts at the
source position on the PN camera
within the 70 per cent EEF ellipse
(CNTPNUHRD_70)
670- 675 F6.2 --- bkgPNU70 ?=-99.99 Expected number of
ultra hard band background counts at
the source position on the PN camera
within the 70 per cent EEF ellipse
(BKGPNUHRD_70)
677- 688 E12.6 s expPNU70 ?=-99.99 PN camera ultra hard band
exposure time at the source position
(EXPPNUHRD_70) (1)
690- 693 I4 ct ctM1U70 ?=-99 Ultra hard band counts at the
source position on the MOS1 camera
within the 70 per cent EEF ellipse
(CNTM1UHRD_70)
695- 701 F7.3 --- bkgM1U70 ?=-99.99 Expected number of
ultra hard band background counts
at the source position on the MOS1
camera within the 70 per cent EEF
ellipse (BKGM1UHRD_70)
703- 714 E12.6 s expM1U70 ?=-99.99 MOS1 camera ultra hard band
exposure time at the source position
(EXPM1UHRD_70) (1)
716- 719 I4 ct ctM2U70 ?=-99 Ultra hard band counts at the
source position on the MOS2 camera
within the 70 per cent EEF ellipse
(CNTM2UHRD_70)
721- 727 F7.3 --- bkgM2U70 ?=-99.99 Expected number of
ultra hard band background counts at
the source position on the MOS2
camera within the 70 per cent EEF
ellipse (BKGM2UHRD_70)
729- 740 E12.6 s expM2U70 ?=-99.99 MOS2 camera ultra hard band
exposure time at the source position
(EXPM2UHRD_70) (1)
742- 749 F8.3 --- emlDMLU ?=-9.99 Detection likelihood in the
ultra hard band for all EPIC cameras
(EMLDETML_UHRD)
751- 756 F6.3 --- emlEMLU ?=-9.99 Likelihood that the source
is extended in the ultra hard band
(EMLExtML_UHRD) (2)
758- 764 F7.4 deg RAXdegc X-ray source Right Ascension
corrected for systematic offsets of
the XMM pointing (RA_CORR)
766- 772 F7.4 deg DEXdegc X-ray source Declination corrected
for systematic offsets of the XMM
pointing (DEC_CORR)
774- 780 F7.3 --- GLONcorr X-ray source Galactic longitude
corresponding to RAXdegc and
DEXdegc (LII_CORR)
782- 788 F7.3 --- GLATcorr X-ray source Galactic latitude
corresponding to RAXdegc and
DEXdegc (BII_CORR)
--------------------------------------------------------------------------------
Source parameters related to flux estimation
--------------------------------------------------------------------------------
790- 794 I5 ct ctTotF80 Full band counts at the source
position from all EPIC cameras
estimated within the 80 per cent
EEF ellipse (CNTTOTALFULL_80)
796- 802 F7.3 --- bkgTotF80 ?=-99.99 Expected number of full
band background counts at the
source position from all EPIC
cameras within the 80 per cent EEF
ellipse (BKGTOTALFULL_80)
804- 809 I6 s expTotF80 ?=-99.99 Full band exposure time at
the source position from all EPIC
cameras. (EXPTOTALFULL_80) (3)
811- 814 I4 ct ctPNF80 Full band counts at the source
position on the PN camera within
the 80 per cent EEF ellipse
(CNTPNFULL_80)
816- 825 F10.6 --- bkgPNF80 ?=-99.99 Expected number of full
band background counts at the
source position on the PN camera
within the 80 per cent EEF ellipse
(BKGPNFULL_80)
827- 838 E12.6 s expPNF80 PN camera full band exposure time at
the source position
(EXPPNFULL_80) (3)
840- 843 I4 ct ctM1F80 Full band counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(CNTM1FULL_80)
845- 854 F10.6 --- bkgM1F80 ?=-99.99 Expected number of full
band background counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(BKGM1FULL_80)
856- 867 E12.6 s expM1F80 MOS1 camera full band exposure time
at the source position
(EXPM1FULL_80) (3)
869- 872 I4 ct ctM2F80 Full band counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(CNTM2FULL_80)
874- 883 F10.6 --- bkgM2F80 ?=-99.99 Expected number of full
band background counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(BKGM2FULL_80)
885- 896 E12.6 s expM2F80 MOS2 camera full band exposure time
at the source position
(EXPM2FULL_80) (3)
898- 902 I5 ct ctTotS80 Soft band counts at the source
position from all EPIC cameras
estimated within the 80 per cent
EEF ellipse (CNTTOTALSOFT_80)
904- 910 F7.3 --- bkgTotS80 ?=-99.99 Expected number of soft
band background counts at the source
position from all EPIC cameras
within the 80 per cent EEF ellipse
(BKGTOTALSOFT_80)
912- 917 I6 s expTotS80 ?=-99.99 Soft band exposure time at
the source position from all EPIC
cameras (EXPTOTALSOFT_80) (3)
919- 922 I4 ct ctPNS80 Soft band counts at the source
position on the PN camera within
the 80 per cent EEF ellipse
(CNTPNSOFT_80)
924- 933 F10.6 --- bkgPNS80 ?=-99.99 Expected number of soft
band background counts at the source
position on the PN camera within
the 80 per cent EEF ellipse
(BKGPNSOFT_80)
935- 946 E12.6 s expPNS80 PN camera soft band exposure time at
the source position
(EXPPNSOFT_80) (3)
948- 951 I4 ct ctM1S80 Soft band counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(CNTM1SOFT_80)
953- 962 F10.6 --- bkgM1S80 ?=-99.99 Expected number of soft
band background counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(BKGM1SOFT_80)
964- 975 E12.6 s expM1S80 MOS1 camera soft band exposure time
at the source position
(EXPM1SOFT_80) (3)
977- 980 I4 ct ctM2S80 Soft band counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(CNTM2SOFT_80)
982- 991 F10.6 --- bkgM2S80 ?=-99.99 Expected number of soft
band background counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(BKGM2SOFT_80)
993-1004 E12.6 s expM2S80 MOS2 camera soft band exposure time
at the source position
(EXPM2SOFT_80) (3)
1006-1009 I4 ct ctTotH80 Hard band counts at the source
position from all EPIC cameras
estimated within the 80 per cent
EEF ellipse (CNTTOTALHARD_80)
1011-1017 F7.3 --- bkgTotH80 ?=-99.99 Expected number of hard
band background counts at the source
position from all EPIC cameras
within the 80 per cent EEF ellipse
(BKGTOTALHARD_80)
1019-1024 I6 s expTotH80 ?=-99.99 Hard band exposure time at
the source position from all EPIC
cameras (EXPTOTALHARD_80) (3)
1026-1029 I4 ct ctPNH80 Hard band counts at the source
position on the PN camera within
the 80 per cent EEF ellipse
(CNTPNHARD_80)
1031-1040 F10.6 --- bkgPNH80 ?=-99.99 Expected number of hard
band background counts at the source
position on the PN camera within
the 80 per cent EEF ellipse
(BKGPNHARD_80)
1042-1053 E12.6 s expPNH80 PN camera hard band exposure time at
the source position
(EXPPNHARD_80) (3)
1055-1057 I3 ct ctM1H80 Hard band counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(CNTM1HARD_80)
1059-1068 F10.6 --- bkgM1H80 ?=-99.99 Expected number of hard
band background counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(BKGM1HARD_80)
1070-1081 E12.6 s expM1H80 MOS1 camera hard band exposure time
at the source position
(EXPM1HARD_80) (3)
1083-1085 I3 ct ctM2H80 Hard band counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(CNTM2HARD_80)
1087-1096 F10.6 --- bkgM2H80 ?=-99.99 Expected number of hard
band background counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(BKGM2HARD_80)
1098-1109 E12.6 s expM2H80 MOS2 camera hard band exposure time
at the source position
(EXPM2HARD_80) (3)
1111-1114 I4 ct ctTotV80 Very hard band counts at the source
position from all EPIC cameras
estimated within the 80 per cent
EEF ellipse (CNTTOTALVHRD_80)
1116-1122 F7.3 --- bkgTotV80 ?=-99.99 Expected number of very
hard band background counts at the
source position from all EPIC
cameras within the 80 per cent EEF
ellipse (BKGTOTALVHRD_80)
1124-1129 I6 s expTotV80 ?=-99.99 Very hard band exposure
time at the source position from all
EPIC cameras (EXPTOTALVHRD_80) (3)
1131-1134 I4 ct ctPNV80 Very hard band counts at the source
position on the PN camera within
the 80 per cent EEF ellipse
(CNTPNVHRD_80)
1136-1145 F10.6 --- bkgPNV80 ?=-99.99 Expected number of very
hard band background counts at the
source position on the PN camera
within the 80 per cent EEF ellipse
(BKGPNVHRD_80)
1147-1158 E12.6 s expPNV80 PN camera very hard band exposure
time at the source position
(EXPPNVHRD_80) (3)
1160-1162 I3 ct ctM1V80 Very hard band counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(CNTM1VHRD_80)
1164-1172 F9.6 --- bkgM1V80 ?=-99.99 Expected number of very
hard band background counts at the
source position on the MOS1 camera
within the 80 per cent EEF ellipse
(BKGM1VHRD_80)
1174-1185 E12.6 s expM1V80 MOS1 camera very hard band exposure
time at the source position
(EXPM1VHRD_80) (3)
1187-1189 I3 ct ctM2V80 Very hard band counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(CNTM2VHRD_80)
1191-1199 F9.6 --- bkgM2V80 ?=-99.99 Expected number of very
hard band background counts at the
source position on the MOS2 camera
within the 80 per cent EEF ellipse
(BKGM2VHRD_80)
1201-1212 E12.6 s expM2V80 MOS2 camera very hard band exposure
time at the source position
(EXPM2VHRD_80) (3)
1214-1216 I3 ct ctTotU80 Ultra hard band counts at the source
position from all EPIC cameras
estimated within the 80 per cent
EEF ellipse (CNTTOTALUHRD_80)
1218-1225 F8.3 --- bkgTotU80 ?=-99.99 Expected number of
ultra hard band background counts at
the source position from all EPIC
cameras within the 80 per cent EEF
ellipse (BKGTOTALUHRD_80)
1227-1232 I6 s expTotU80 ?=-99.99 Ultra hard band exposure
time at the source position from all
EPIC cameras (EXPTOTALUHRD_80) (3)
1234-1236 I3 ct ctPNU80 Ultra hard band counts at the source
position on the PN camera within
the 80 per cent EEF ellipse
(CNTPNUHRD_80)
1238-1248 F11.6 --- bkgPNU80 ?=-99.99 Expected number of
ultra hard band background counts at
the source position on the PN
camera within the 80 per cent EEF
ellipse (BKGPNUHRD_80)
1250-1261 E12.6 s expPNU80 PN camera ultra hard band exposure
time at the source position
(EXPPNUHRD_80) (3)
1263-1265 I3 ct ctM1U80 Ultra hard band counts at the source
position on the MOS1 camera within
the 80 per cent EEF ellipse
(CNTM1UHRD_80)
1267-1276 F10.6 --- bkgM1U80 ?=-99.99 Expected number of
ultra hard band background counts at
the source position on the MOS1
camera within the 80 per cent EEF
ellipse (BKGM1UHRD_80)
1278-1289 E12.6 s expM1U80 MOS1 camera ultra hard band exposure
time at the source position
(EXPM1UHRD_80) (3)
1291-1293 I3 ct ctM2U80 Ultra hard band counts at the source
position on the MOS2 camera within
the 80 per cent EEF ellipse
(CNTM2UHRD_80)
1295-1303 F9.6 --- bkgM2U80 ?=-99.99 Expected number of
ultra hard band background counts
at the source position on the MOS2
camera within the 80 per cent EEF
ellipse (BKGM2UHRD_80)
1305-1316 E12.6 s expM2U80 MOS2 camera ultra hard band exposure
time at the source position
(EXPM2UHRD_80) (3)
1318-1325 F8.6 10+11ct/mW/m2 ecfPNF PN full band counts to flux
conversion factor (ECFPNFULL)
1327-1334 F8.6 10+11ct/mW/m2 ecfM1F MOS1 full band counts to flux
conversion factor (ECFM1FULL)
1336-1343 F8.6 10+11ct/mW/m2 ecfM2F MOS2 full band counts to flux
conversion factor (ECFM2FULL)
1345-1352 F8.6 10+11ct/mW/m2 ecfPNS PN soft band counts to flux
conversion factor (ECFPNSOFT)
1354-1361 F8.6 10+11ct/mW/m2 ecfM1S MOS1 soft band counts to flux
conversion factor (ECFM1SOFT)
1363-1370 F8.6 10+11ct/mW/m2 ecfM2S MOS2 soft band counts to flux
conversion factor (ECFM2SOFT)
1372-1379 F8.6 10+11ct/mW/m2 ecfPNH PN hard band counts to flux
conversion factor (ECFPNHARD)
1381-1388 F8.6 10+11ct/mW/m2 ecfM1H MOS1 hard band counts to flux
conversion factor (ECFM1HARD)
1390-1397 F8.6 10+11ct/mW/m2 ecfM2H MOS2 hard band counts to flux
conversion factor (ECFM2HARD)
1399-1406 F8.6 10+11ct/mW/m2 ecfPNV PN very hard band counts to flux
conversion factor (ECFPNVHRD)
1408-1415 F8.6 10+11ct/mW/m2 ecfM1V MOS1 very hard band counts to flux
conversion factor (ECFM1VHRD)
1417-1424 F8.6 10+11ct/mW/m2 ecfM2V MOS2 very hard band counts to flux
conversion factor (ECFM2VHRD)
1426-1433 F8.6 10+11ct/mW/m2 ecfPNU PN ultra hard band counts to flux
conversion factor (ECFPNUHRD)
1435-1446 E12.6 10+11ct/mW/m2 ecfM1U MOS1 ultra hard band counts to flux
conversion factor (ECFM1UHRD)
1448-1459 E12.6 10+11ct/mW/m2 ecfM2U MOS2 ultra hard band counts to flux
conversion factor (ECFM2UHRD)
1461-1466 F6.3 --- HRPN ?=-9.99 PN hardness ratio
(HR_PN) (4)
1468-1473 F6.3 --- BHRPN ?=-9.99 68 per cent confidence level
upper limit in HRPN (HRPNUPPER)
1475-1480 F6.3 --- bHRPN ?=-9.99 68 per cent confidence level
lower limit in HRPN (HRPNLOWER)
1482-1490 F9.6 --- HRM1 MOS1 hardness ratio (HR_M1) (4)
1492-1500 F9.6 --- BHRM1 ?=-9.99 68 per cent confidence level
upper limit in HRM1 (HRM1UPPER)
1502-1507 F6.3 --- bHRM1 ?=-9.99 68 per cent confidence level
lower limit in HRM1 (HRM1LOWER)
1509-1517 F9.6 --- HRM2 ?=-9.99 MOS2 hardness ratio
(HR_M2) (4)
1519-1524 F6.3 --- BHRM2 ?=-9.99 68 per cent confidence level
upper limit in HRM2 (HRM2UPPER)
1526-1531 F6.3 --- bHRM2 ?=-9.99 68 per cent confidence level
lower limit in HRM2 (HRM2LOWER)
1533-1544 E12.6 mW/m2 FluxF ?=0 Full (0-5-10keV) flux set to 0
in case of upper limit (FLUX_FULL)
1546-1557 E12.6 mW/m2 b_FluxF ?=0 Full (0-5-10keV) flux lower
limit uncertainty (68 per cent)
set to 0 in case of upper limit
(FLUXFULLLOWER)
1559-1570 E12.6 mW/m2 B_FluxF Full (0-5-10keV) flux upper limit
(68 per cent) (FLUXFULLUPPER)
1572-1583 E12.6 mW/m2 FluxS ?=0 Soft (0.5-2keV) flux set to 0
in case of upper limit (FLUX_SOFT)
1585-1596 E12.6 mW/m2 b_FluxS ?=0 Soft (0.5-2keV) flux lower limit
(68 per cent) (FLUXSOFTLOWER)
1598-1609 E12.6 mW/m2 B_FluxS ?=0 Soft (0.5-2keV) flux upper limit
(68 per cent) (FLUXSOFTUPPER)
1611-1622 E12.6 mW/m2 FluxH ?=0 Hard (2-10keV) flux set to 0
in case of upper limit (FLUX_HARD)
1624-1635 E12.6 mW/m2 b_FluxH ?=0 Hard (2-10keV) flux lower limit
(68 per cent) (FLUXHARDLOWER)
1637-1648 E12.6 mW/m2 B_FluxH ?=0 Hard (2-10keV) flux upper limit
(68 per cent) (FLUXHARDUPPER)
1650-1661 E12.6 mW/m2 FluxV ?=0 Very hard (5-10keV) flux set to
0 in case of upper limit
(FLUX_VHRD)
1663-1674 E12.6 mW/m2 b_FluxV ?=0 Very hard (5-10keV) flux lower
limit (68 per cent) set to 0 in
case of upper limit
(FLUXVHRDLOWER)
1676-1687 E12.6 mW/m2 B_FluxV ?=0 Very hard (5-10keV) flux upper
limit (68 per cent)
(FLUXVHRDUPPER)
1689-1700 E12.6 mW/m2 FluxU ?=0 Ultra hard (7.5-12keV) flux set
to 0 in case of upper limit
(FLUX_UHRD)
1702-1713 E12.6 mW/m2 b_FluxU ?=0 Ultra hard (7.5-12keV) flux
lower limit (68 per cent) set to 0
in case of upper limit
(FLUXUHRDLOWER)
1715-1726 E12.6 mW/m2 B_FluxU ?=0 Ultra hard (7.5-12keV) flux
upper limit (68 per cent)
(FLUXUHRDUPPER)
1728-1732 F5.2 [cm-3] logNHGAL Base 10 logarithm of the Galactic
hydrogen column density in the
direction of the source
(LGNHGAL) (5)
1734-1738 A5 --- filtPN XMM's PN filter (FILTERPN)
1740-1744 A5 --- filtMOS1 XMM's MOS1 filter (FILTERMOS1)
1746-1750 A5 --- filtMOS2 XMM's MOS2 filter (FILTERMOS2)
--------------------------------------------------------------------------------
X-ray optical identification parameters
--------------------------------------------------------------------------------
1752-1762 F11.6 --- LRS ?=-9 Likelihood of the optical
counterpart for X-ray sources in
the soft-band selected sample
(LR_SOFT)
1764-1774 F11.6 --- LRH ?=-9 Likelihood of the optical
counterpart for X-ray sources in
the hard-band selected sample
(LR_HARD)
1776-1786 F11.6 --- LRV ?=-9 Likelihood of the optical
counterpart for X-ray sources in
the very hard band selected sample
(LR_VHRD)
1788-1798 F11.6 --- LRU ?=-9 Likelihood of the optical
counterpart for X-ray sources in
the ultra hard band selected sample
(LR_UHRD)
1800-1810 F11.6 --- LRF ?=-9 Likelihood of the optical
counterpart for X-ray sources in
the full band selected sample
(LR_FULL)
1812-1822 F11.6 --- LR ?=-9 Likelihood of the optical
counterpart, estimated for all
X-ray sources independent of the
detection band (LR)
1824-1832 F9.6 --- relS ?=-9 Reliability of the optical
counterpart for X-ray sources in
the soft band selected sample
(REL_SOFT)
1834-1842 F9.6 --- relH ?=-9 Reliability of the optical
counterpart for X-ray sources in
the hard band selected sample
(REL_HARD)
1844-1852 F9.6 --- relV ?=-9 Reliability of the optical
counterpart for X-ray sources in
the very hard band selected sample
(REL_VHRD)
1854-1862 F9.6 --- relU ?=-9 Reliability of the optical
counterpart for X-ray sources in
the ultra hard -band selected
sample (REL_UHRD)
1864-1872 F9.6 --- relF ?=-9 Reliability of the optical
counterpart for X-ray sources in
the full band selected sample
(REL_FULL)
1874-1882 F9.6 --- rel ?=-9 Reliability of the optical
counterpart, estimated for all
X-ray sources independent of the
detection band (REL)
1884-1892 F9.6 arcsec drRA ?=-9.999 RA offset between the X-ray
source and the optical counterpart
(DRRAARCSEC)
1894-1902 F9.6 arcsec drDE ?=-9.999 DE offset between the X-ray
source and the optical counterpart
(DRDECARCSEC)
1904-1922 A19 --- SDSS ?=-9 SDSS source identification
number (SDSS_ID)
1924-1930 F7.4 deg RAOdeg ?=-9 SDSS optical counterpart
Right Ascension (J2000) (RA_OPT)
1932-1938 F7.4 deg DEOdeg ?=-9 SDSS optical counterpart
Declination (J2000) (DEC_OPT)
--------------------------------------------------------------------------------
SDSS photometry parameters
--------------------------------------------------------------------------------
1940-1946 F7.3 mag umag ?=-9 SDSS u-band petrosian magnitude
of the optical counterpart (petro_u)
1948-1954 F7.3 mag gmag ?=-9 SDSS g-band petrosian magnitude
of the optical counterpart (petro_g)
1956-1962 F7.3 mag rmag ?=-9 SDSS r-band petrosian magnitude
of the optical counterpart (petro_r)
1964-1970 F7.3 mag imag ?=-9 SDSS i-band petrosian magnitude
of the optical counterpart (petro_i)
1972-1978 F7.3 mag zmag ?=-9 SDSS z-band petrosian magnitude
of the optical counterpart (petro_z)
1980-1991 E12.6 mag e_umag ?=-9 Error on umag (petroerru)
1993-2003 F11.6 mag e_gmag ?=-9 Error on gmag (petroerrg)
2005-2014 F10.6 mag e_rmag ?=-9 Error on rmag (petroerrr)
2016-2026 F11.6 mag e_imag ?=-9 Error on imag (petroerri)
2028-2039 E12.6 mag e_zmag ?=-9 Error on zmag (petroerrz)
2041-2047 F7.3 mag umod ?=-9 SDSS u-band model magnitude of
the optical counterpart (model_u)
2049-2055 F7.3 mag gmod ?=-9 SDSS g-band model magnitude of
the optical counterpart (model_g)
2057-2063 F7.3 mag rmod ?=-9 SDSS r-band model magnitude of
the optical counterpart (model_r)
2065-2071 F7.3 mag imod ?=-9 SDSS i-band model magnitude of
the optical counterpart (model_i)
2073-2079 F7.3 mag zmod ?=-9 SDSS z-band model magnitude of
the optical counterpart (model_z)
2081-2090 F10.6 mag e_umod ?=-9 Error on umod (modelerru)
2092-2100 F9.6 mag e_gmod ?=-9 Error on gmod (modelerrg)
2102-2110 F9.6 mag e_rmod ?=-9 Error on rmod (modelerrr)
2112-2120 F9.6 mag e_imod ?=-9 Error on imod (modelerri)
2122-2131 F10.6 mag e_zmod ?=-9 Error on zmod (modelerrz)
2133-2139 F7.3 mag umagpsf ?=-9 SDSS u-band psf magnitude of
the optical counterpart (psf_u)
2141-2147 F7.3 mag gmagpsf ?=-9 SDSS g-band psf magnitude of
the optical counterpart (psf_g)
2149-2155 F7.3 mag rmagpsf ?=-9 SDSS r-band psf magnitude of
the optical counterpart (psf_r)
2157-2163 F7.3 mag imagpsf ?=-9 SDSS i-band psf magnitude of
the optical counterpart (psf_i)
2165-2171 F7.3 mag zmagpsf ?=-9 SDSS z-band psf magnitude of
the optical counterpart (psf_z)
2173-2184 E12.6 mag e_umagpsf ?=-9 Error on umagpsf (psferru)
2186-2196 F11.6 mag e_gmagpsf ?=-9 Error on gmagpsf (psferrg)
2198-2208 F11.6 mag e_rmagpsf ?=-9 Error on rmagpsf (psferrr)
2210-2219 F10.6 mag e_imagpsf ?=-9 Error on imagpsf (psferri)
2221-2231 F11.6 mag e_zmagpsf ?=-9 Error on zmagpsf (psferrz)
2233-2238 F6.3 mag extu ?=-9 Galactic extinction in the
SDSS u-band (ext_u)
2240-2245 F6.3 mag extg ?=-9 Galactic extinction in the
SDSS g-band (ext_g)
2247-2252 F6.3 mag extr ?=-9 Galactic extinction in the
SDSS r-band (ext_r)
2254-2259 F6.3 mag exti ?=-9 Galactic extinction in the
SDSS i-band (ext_i)
2261-2266 F6.3 mag extz ?=-9 Galactic extinction in the
SDSS z-band (ext_z)
2268-2269 I2 --- pType [3/6]?=-9 SDSS photometric type,
-57 for optically extended source,
6 for stellar object (p_type)
2271-2276 F6.3 arcsec dr ?=-9 Angular separation between the
X-ray source and the optical
counterpart (DR_ARCSEC)
2278-2284 F7.3 deg GLAT ?=-9 Galactic latitude of the
counterpart (GAL_LAT)
2286-2293 F8.3 deg GLON ?=-9 Galactic longitude of the
counterpart (GAL_LONG)
--------------------------------------------------------------------------------
Note (1): This parameter is the average exposure time within the 70 per cent
EEF ellipse
Note (2): This parameter is estimated by the emldetect task of SAS for all
EPIC cameras
Note (3): This parameter is the average exposure time within the 80 per cent
EEF ellipse
Note (4): A value of-9.99 for HR and upper and lower limits means that the HR
could not be estimated, e.g. the source lies outside the PN, MOS1 or MOS2 FOV.
Note (5): estimated from the HI map of Kalberla et al., 2005A&A...440..775K 2005A&A...440..775K,
Cat. VIII/76.
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table2.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 8 A8 --- UXID Unique ID for each source (UXID)
10- 15 F6.1 --- Plate SDSS plate (PLATE)
17- 23 F7.1 --- MJD SDSS mjd (MJD)
25- 30 F6.1 --- Fiber SDSS FIBERID (FIBERID)
32- 38 F7.5 --- z Redshift (Z)
40- 49 A10 --- Class Optical classifications (CLASS)
51- 63 F13.10 cm-2 nhmed logarithmic median value of column density
(nh_median)
65- 77 F13.11 --- phoindmed Median value of the photon index parameters
(phoind_media)
79- 93 F15.11 --- normmed logarithmic median value of the
normalization (norm_median)
95-111 E17.14 --- reflNormmed logarithmic median value of the relative
normalization of the reflection component
(reflnormmedia)
113-128 F16.13 --- scatNormmed logarithmic median value of the relative
normalization of the soft scattering
component (scatnormmedia)
130-142 F13.10 [10-7W] loglummed logarithmic median value of the 2-10keV
luminosity in units of erg/s (lumi_median)
144-157 F14.9 ct PNct2-10 Rest-frame 2-10keV photon counts of the PN
spectrum (PNSR2_10)
159-171 F13.8 ct MOSct2-10 Rest-frame 2-10keV photon counts of the MOS
spectrum (MOSSR2_10)
173-185 F13.10 --- nh3 3rd percentile of column density (nh_3)
187-199 F13.10 --- nh16 16th percentile of column density (nh_16)
201-213 F13.10 --- nh84 84th percentile of column density (nh_84)
215-227 F13.10 --- nh97 97th percentile of column density (nh_97)
229-241 F13.11 --- phoind3 3rd percentile of the photon index
parameters (phoind_3)
243-255 F13.11 --- phoind16 16th percentile of the photon index
parameters (phoind_16)
257-269 F13.11 --- phoind84 84th percentile of the photon index
parameters (phoind_84)
271-283 F13.11 --- phoind97 97th percentile of the photon index
parameters (phoind_97)
285-299 F15.11 --- norm3 3rd percentile of the normalization (norm_3)
301-315 F15.11 --- norm16 16th percentile of the normalization
(norm_16)
317-331 F15.11 --- norm84 84th percentile of the normalization
(norm_84)
333-346 F14.11 --- norm97 97th percentile of the normalization
(norm_97)
348-363 F16.13 --- reflNorm3 3rd percentile of the relative normalization
of the reflection component (reflnorm3)
365-381 E17.14 --- reflNorm16 16th percentile of the relative
normalization of the reflection component
(reflnorm16)
383-399 E17.14 --- reflNorm84 84th percentile of the relative
normalization of the reflection component
(reflnorm84)
401-417 E17.14 --- reflNorm97 97th percentile of the relative
normalization of the reflection component
(reflnorm97)
419-433 F15.12 --- scatNorm3 3rd percentile of the relative normalization
of the soft scattering component
(scatnorm3)
435-450 F16.13 --- scatNorm16 16th percentile of the relative
normalization of the soft scattering
component (scatnorm16)
452-467 F16.13 --- scatNorm84 84th percentile of the relative
normalization of the soft scattering
component (scatnorm84)
469-485 F17.14 --- scatNorm97 97th percentile of the relative
normalization of the soft scattering
component (scatnorm97)
487-499 F13.10 [10-7W] loglum3 3rd percentile of the 2-10keV luminosity
(lumi_3)
501-513 F13.10 [10-7W] loglum16 16th percentile of the 2-10keV luminosity
(lumi_16)
515-527 F13.10 [10-7W] loglum84 84th percentile of the 2-10keV luminosity
(lumi_84)
529-541 F13.10 [10-7W] loglum97 97th percentile of the 2-10keV luminosity
(lumi_97)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table3.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 8 A8 --- UXID unique ID for each source (UXID)
10- 16 F7.5 --- z redshift (Z)
18- 31 F14.11 [Msun] logMBH logarithmic black hole mass (MBH)
33- 50 F18.15 [10-7W] logL1350 ?=0 logarithmic optical 1350A monochromatic
luminosity (LOGL1350)
52- 69 F18.15 [10-7W] logL1700 ?=0 logarithmic optical 1700A monochromatic
luminosity (LOGL1700)
71- 88 F18.15 [10-7W] logL3000 ?=0 logarithmic optical 3000A monochromatic
luminosity (LOGL3000)
90-107 F18.15 [10-7W] logL5100 ?=0 logarithmic optical 5100A monochromatic
luminosity (LOGL5100)
109-121 F13.10 [10-7W] logLdisc ? logarithmic disc luminosity (LOGLDISC)
122 A1 --- n_logLdisc [I] I for -∞
123-140 F18.15 [10-7W] logLbol logarithmic bolometric luminosity (LOGLBOL)
142-163 F22.19 --- logLEdd logarithmic Eddington ratio (LOGLEDD)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: tablea1.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 14 A14 --- XMM XMM observation identification number (1)
16- 17 I2 h RAh Right Ascension of XMM observation (J2000)
19- 20 I2 min RAm Right Ascension of XMM observation (J2000)
22- 26 F5.2 s RAs Right Ascension of XMM observation (J2000)
28 A1 --- DE- Declication sign of XMM observation (J2000)
29- 30 I2 deg DEd Declication of XMM observation (J2000)
32- 33 I2 arcmin DEm Declication of XMM observation (J2000)
35- 38 F4.1 arcsec DEs Declication of XMM observation (J2000)
40- 45 A6 --- PNfilt EPIC PN filter used during the observations
47- 51 I5 s PNexp ?=- EPIC PN exposure time
53- 58 A6 --- MOS1filt EPIC MOS1 filter used during the observations
60- 64 I5 s MOS1exp ?=- EPIC MOS2 exposure time
66- 71 A6 --- MOS2filt EPIC MOS2 filter used during the observations
73- 77 I5 s MOS2exp ?=- EPIC MOS2 exposure time
--------------------------------------------------------------------------------
Note (1): A "U" at the end of the observation ID marks "unscheduled" XMM
observations. Data taken in the XMM mosaic mode are marked by a trailing
incremental number separated by the observations identification number
by an underscore.
--------------------------------------------------------------------------------
History:
* 05-Dec-2016: From electronic version of the journal
* 12-Jan-2018: In table2, column labels corrected
(End) Patricia Vannier [CDS] 18-Oct-2016