J/A+A/661/A5 The eFEDS AGN catalog (Liu+, 2022)
The eROSITA Final Equatorial-Depth Survey (eFEDS).
The AGN catalog and its X-ray spectral properties.
Liu T., Buchner J., Nandra K., Merloni A., Dwelly T., Sanders J.S.,
Salvato M., Arcodia R., Brusa M., Wolf J., Georgakakis A., Boller T.,
Krumpe M., Lamer G., Waddell S., Urrutia T., Schwope A., Robrade J.,
Wilms J., Dauser T., Comparat J., Toba Y., Ichikawa K., Iwasawa K.,
Shen Y., Medel H.I.
<Astron. Astrophys. 661, A5 (2022)>
=2022A&A...661A...5L 2022A&A...661A...5L
ADC_Keywords: Surveys ; X-ray sources ; QSOs ; Active gal. nuclei
Keywords: surveys - catalogs - galaxies: active - galaxies: nuclei -
quasars: general - X-rays: galaxies
Abstract:
The eROSITA Final Equatorial Depth Survey (eFEDS), observed with
eROSITA ahead of its planned four-year all-sky survey, is the largest
contiguous-field X-ray survey at present. It yielded a large sample of
X-ray sources with very rich multiband photometric and spectroscopic
coverage. We present here the eFEDS active galactic nuclei (AGN)
catalog and the eROSITA X-ray spectral properties of the eFEDS
sources. Using a Bayesian method, we performed a systematic X-ray
spectral analysis for all the eFEDS sources. We adopted multiple
spectral models, including single-component power-law or hot-plasma
models and double-component models of a power law plus soft excess. We
investigated the capacity of eROSITA X-ray spectra for constraining
AGN spectral shapes through a detailed analysis of the posterior
parameter probability distribution functions. Hierarchical Bayesian
modeling (HBM) was used to recover the spectral parameter distribution
of the sample. The source fluxes and luminosities were measured from
the posterior of the spectral fitting.
The eFEDS AGN catalog (22079 sources) comprises ∼80% of the eFEDS
point sources. Despite a large number of faint sources, our spectral
fitting provides reasonable measurements of spectral shapes and
intrinsic luminosities for a majority of the sources. Because of
sample selection bias, this AGN catalog is dominated by X-ray
unobscured sources, with an obscured (logNH>21.5) fraction of 8%; the
power-law emission of the hot corona is also relatively soft, with a
typical slope of 2.0. For type-I AGN, the X-ray emission is well
correlated with the UV emission with the usual anticorrelation between
the X-ray to UV spectral slope alpha_OX and the UV luminosity. The
X-ray spectral properties measured with various models are presented
for all the eFEDS sources.
Description:
We present the AGN catalog (22079 sources) selected from the eFEDS
main X-ray catalog (27910 sources). To investigate the X-ray spectral
properties of AGN, we extract and analyze the spectra of all the eFEDS
sources, assuming all of them are point sources.
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
table1.dat 736 22079 The eFEDS AGN catalog
table2.dat 645 27910 Spectral properties
table3.dat 715 27910 APEC fitting results
table4.dat 990 27910 Single-powerlaw results
table5.dat 1175 27910 Double-powerlaw results
table6.dat 1217 27910 Powerlaw+blackbody results
table7.dat 841 27910 Gamma-fixed-powerlaw results
table8.dat 746 27910 Shape-fixed-powerlaw results
table9.dat 489 27910 Soft-band fitting results
table10.dat 543 27910 Hard-band fitting results
--------------------------------------------------------------------------------
See also:
J/A+A/661/A1 : The eFEDS X-ray catalogs (V7.4) (Brunner+, 2022)
J/A+A/661/A2 : Galaxy clusters and groups in eFEDS (Liu+, 2022)
J/A+A/661/A3 : eFEDS counterparts to point-like sources (Salvato+, 2022)
J/A+A/661/A4 : eFEDS optical cluster and group catalog (Klein+, 2022)
J/A+A/661/A7 : X-ray properties of eFEDS clusters and groups (Bahar+, 2022)
J/A+A/661/A8 : eFEDS catalogue of variable X-ray sources (Boller+, 2022)
J/A+A/661/A10 : eFEDS galaxy clusters and groups in disguise (Bulbul+, 2022)
J/A+A/661/A23 : Exoplanet X-ray irradiation & evaporation rates (Foster+, 2022)
J/A+A/661/A24 : Corona-chromosphere connection (Fuhrmeister+, 2022)
J/A+A/661/A29 : First eROSITA study of nearby M dwarfs (Magaudda+, 2022)
J/A+A/661/A34 : eta Cha cluster eROSITA X-ray scan (Robrade+, 2022)
J/A+A/661/A35 : eROSITA study of 47 Tuc globular cluster (Saeedi+, 2022)
J/A+A/661/A38 : SRG/ART-XC 1st year all-sky X-ray survey (Pavlinsky+, 2022)
J/A+A/661/A40 : eRASS1 X-ray sources Sco-Cen members (Schmitt+, 2022)
J/A+A/661/A44 : A first eROSITA view of ultracool dwarfs (Stelzer+, 2022)
https://erosita.mpe.mpg.de/edr/eROSITAObservations/Catalogues/liuT/
eFEDSAGNspec_V9.html : Home Page
Byte-by-byte Description of file: table1.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in the eFEDS
main X-ray catalog (Paper I) (ID_SRC)
7- 24 F18.14 deg RAcdeg [126.24/145.59] Right ascension (J2000),
astrometric corrected (Paper I)
(RA_CORR)
26- 49 E24.17 deg DEcdeg [-2.91/5.97] Declination (J2000),
astrometric corrected (Paper I)
(DEC_CORR)
51- 63 F13.7 --- DetLike 0.2-2.3 keV source detection likelihood
(Paper I) (DET_LIKE)
65- 69 E5.4 --- inArea90 Whether located inside the inner
90%-area region of eFEDS (Paper I)
(inArea90)
71- 81 A11 --- CTPLS8 ID of the best LS8 counterpart
(Paper II) (CTPLS8UNIQUE_OBJID)
83-100 F18.14 deg RALdeg [126.23/145.59] Right ascension (J2000)
of the best LS8 counterpart (Paper II)
(CTPLS8RA)
102-124 E23.17 deg DELdeg [-2.91/5.97] Declination (J2000) of the
best LS8 counterpart (Paper II)
(CTPLS8DEC)
126 I1 --- CTPqual [2/4] Counterpart quality (Paper II)
A value ≥2 is recommended
(CTP_quality)
128 I1 --- CTPClass [2/3] Classification of the optical
counterpart (Paper II) (CTP_CLASS) (1)
130-141 F12.10 --- CTPz [0.0/8.0] Redshift of the optical
counterpart (Paper II) (CTP_REDSHIFT)
143 I1 --- CTPzgrade [2/5] Redshift Grade (Paper II)
A value ≥3 is recommended
(CTPREDSHIFTGRADE)
145 I1 --- inKiDSFlag [0/1] Whether located inside the region
of the KiDS survey (Paper II)
(inKiDSflag)
147 I1 --- LxModel [1/5] Index of selected model for
luminosity measurement (LxModel) (2)
149 I1 --- NHclass [1/4] Class of AGN NH measurement with
model 1 (single-powerlaw) (NHclass) (3)
151 I1 --- FSModel [3/6] Index of selected model for
0.5-2keV flux (FSModel) (4)
153 I1 --- FHModel [5/7] Index of selected model for
2.3-5keV flux (FHModel) (5)
155-176 E22.17 cm-2 galNH Total column density of Galactic
absorption (galNH)
178-199 E22.17 cm-2 galNHI HI column density from HI4PI (galNHI)
201-224 F24.18 ct SrcCts Source net counts in the 0.2-5 keV band
(SrcCts)
226-236 E11.6 mW/m2 FluxcMedS Absorption corrected flux in observed
0.5-2 keV, posterior median
(FluxCorrMeds)
238-248 E11.6 mW/m2 b_FluxcS Absorption corrected flux in observed
0.5-2 keV, 1sigma lower limit
(FluxCorrLo1s)
250-260 E11.6 mW/m2 B_FluxcS Absorption corrected flux in observed
0.5-2 keV, 1sigma upper limit
(FluxCorrUp1s)
262-272 E11.6 mW/m2 FluxcMedT Absorption corrected flux in observed
2.3-5 keV, posterior median
(FluxCorrMedt)
274-284 E11.6 mW/m2 b_FluxcT Absorption corrected flux in observed
2.3-5 keV, 1sigma lower limit
(FluxCorrLo1t)
286-296 E11.6 mW/m2 B_FluxcT Absorption corrected flux in observed
2.3-5 keV, 1sigma upper limit
(FluxCorrUp1t)
298-308 E11.6 mW/m2 FluxIMedS Absorption corrected flux in rest-frame
0.5-2 keV, posterior median
(FluxIntrMeds)
310-320 E11.6 mW/m2 b_FluxIS Absorption corrected flux in rest-frame
0.5-2keV, 1sigma lower limit
(FluxIntrLo1s)
322-332 E11.6 mW/m2 B_FluxIS Absorption corrected flux in rest-frame
0.5-2keV, 1sigma upper limit
(FluxIntrUp1s)
334-347 E14.9 mW/m2/eV FluxIMed2keV Absorption corrected flux at rest-frame
2keV, median (FluxIntrMed2keV)
349-362 E14.9 mW/m2/eV b_FluxI2keV Absorption corrected flux at rest-frame
2keV, 1sigma lower limit
(FluxIntrLo12keV)
364-377 E14.9 mW/m2/eV B_FluxI2keV Absorption corrected flux at rest-frame
2keV, 1sigma upper limit
(FluxIntrUp12keV)
379-385 F7.4 10-7W LumIMedS Intrinsic luminosity in rest-frame
0.5-2 keV, posterior median
(LumiIntrMeds)
387-393 F7.4 10-7W b_LumIS Intrinsic luminosity in rest-frame
0.5-2 keV, 1sigma lower limit
(LumiIntrLo1s)
395-401 F7.4 10-7W B_LumIS Intrinsic luminosity in rest-frame
0.5-2 keV, 1sigma upper limit
(LumiIntrUp1s)
403-411 F9.6 10-7W/eV LumIMed2keV Intrinsic luminosity at rest-frame 2keV,
posterior median in erg/s/eV
(LumiIntrMed2keV)
413-421 F9.6 10-7W/eV b_LumI2keV Intrinsic luminosity at rest-frame 2keV,
1sigma lower limit in erg/s/eV
(LumiIntrLo12keV)
423-431 F9.6 10-7W/eV B_LumI2keV Intrinsic luminosity at rest-frame 2keV,
1sigma upper limit in erg/s/eV
(LumiIntrUp12keV)
433-443 E11.6 mW/m2 FluxObsMedS Observed flux in observed 0.5-2 keV,
posterior median (FluxObsvMeds)
445-455 E11.6 mW/m2 b_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma lower limit (FluxObsvLo1s)
457-467 E11.6 mW/m2 B_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma upper limit (FluxObsvUp1s)
469-479 E11.6 mW/m2 FluxObsMedT Observed flux in observed 2.3-5 keV,
posterior median (FluxObsvMedt)
481-491 E11.6 mW/m2 b_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma lower limit (FluxObsvLo1t)
493-503 E11.6 mW/m2 B_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma upper limit (FluxObsvUp1t)
505-515 F11.9 --- lognHKLm1 log AGN column density, KL divergence
(in nats units) (lognHKLm1)
517-525 F9.6 [cm-2] b_lognHm1 log AGN column density, HDI lower limit
(lognHHLom1)
527-535 F9.6 [cm-2] B_lognHm1 log AGN column density, HDI upper limit
(lognHHUpm1)
537-545 F9.6 [cm-2] lognHMedm1 log AGN column density, posterior median
(lognHMedm1)
547-557 F11.9 --- GammaKLm3 primary power-law slope in model 3,
KL divergence (in nats units)
(GammaKLm3)
559-569 F11.9 --- b_GammaHm3 primary power-law slope in model 3,
HDI lower limit (GammaHLom3)
571-579 F9.7 --- B_GammaHm3 primary power-law slope in model 3,
HDI upper limit (GammaHUpm3)
581-590 F10.8 --- GammaMedm3 primary power-law slope in model 3,
posterior median (GammaMedm3)
592-602 F11.6 [-] logZm0 log Bayesian evidence with model 0:
APEC (logZ_m0)
604-614 F11.6 [-] logZm1 log Bayesian evidence with model 1:
single powerlaw (logZ_m1)
616-626 F11.6 [-] logZm2 log Bayesian evidence with model 2:
double powerlaw (logZ_m2)
628-638 F11.6 [-] logZm3 log Bayesian evidence with model 3:
powerlaw + blackbody (logZ_m3)
640-650 F11.6 [-] logZm4 log Bayesian evidence with model 4:
powerlaw with Gamma fixed at 2.0
(logZ_m4)
652-662 F11.6 [-] logZm5 log Bayesian evidence with model 5:
shape-fixed powerlaw (logZ_m5)
664-673 F10.6 10-7W/Hz L2500 ?=-99.0 The rest-frame 2500 luminosity
in erg/s/Hz (L2500)
675-684 F10.6 10-7W/Hz L5100 ?=-99.0 The rest-frame 5100 luminosity
in erg/s/Hz (L5100)
686-696 F11.7 mag W1mag ? LS8-WISE W1 AB magnitude (Paper II)
(W1)
698-710 E13.8 mag e_W1mag ? LS8-WISE W1 magnitude error (Paper II)
(W1_ERR)
712-722 F11.7 mag W2mag ? LS8-WISE W2 AB magnitude (Paper II)
(W2)
724-736 E13.7 mag e_W2mag ? LS8-WISE W2 magnitude error (Paper II)
(W2_ERR)
--------------------------------------------------------------------------------
Note (1): Classification of the optical counterpart as follows:
0 = likely Galactic
1 = secure Galactic
2 = likely extraGalactic
3 = secure extraGalactic
Note (2): Index of selected model for luminosity measurement as follows:
1 = single-powerlaw
3 = powerlaw+bb
4 = powerlaw with Gamma
Note (3): Class of AGN NH measurement with model 1 (single-powerlaw) as follows:
1 = uninformative
2 = unobscured
3 = mildly-measured
4 = well-measured
Note (4): Index of selected model for 0.5-2keV flux as follows:
5 = counts-based measurement for faint sources
0 = robust spectra-based measurement
3 = robust spectra-based measurement
6 = robust spectra-based measurement
Note (5): Index of selected model for 2.3-5keV flux as follows:
5 = counts-based measurement for faint sources
7 = robust spectra-based measurement
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table2.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in the eFEDS
main X-ray catalog (Paper I) (ID_SRC)
7- 24 F18.14 deg RAcdeg [126.24/145.66] Right ascension (J2000),
astrometric corrected (Paper I) (RA_CORR)
26- 49 E24.17 deg DEcdeg [-2.91/5.97] Declination (J2000),
astrometric corrected (Paper I)
(DEC_CORR)
51- 63 F13.7 --- DetLike [6.0/33254.59] 0.2-2.3 keV source
detection likelihood (Paper I) (DET_LIKE)
65- 75 F11.7 --- ExtLike X-ray source extent likelihood (Paper I)
(EXT_LIKE)
77- 81 E5.4 --- inArea90 Whether located inside the inner 90%-area
region of eFEDS (Paper I) (inArea90)
83-104 E22.17 cm-2 galNH Total column density of Galactic
absorption (galNH)
106-127 E22.17 cm-2 galNHI HI column density from HI4PI (galNHI)
129-139 F11.6 s ExpTime Spectra exposure time (Exposure)
141-164 F24.18 ct SrcCts Source net counts in the 0.2-5 keV band
(SrcCts)
166-175 F10.6 deg RAdeg [126.24/145.66] Right ascension (J2000)
before astrometric correction (Paper I)
(RA)
177-186 E10.3 deg DEdeg [-2.91/5.97] Declination (J2000) before
astrometric correction (Paper I) (DEC)
188-190 I3 arcsec Rad [12/259] Source extraction radius (Rad)
192-194 I3 arcsec Ann1 [22/515] Inner radius of background
extraction region (Ann1)
196-198 I3 arcsec Ann2 [171/900] Outer radius of background
extraction region (Ann2)
200-212 E13.8 deg2 RegArea Geometry area of source extraction region
(REGAREA_s)
214-226 E13.8 deg2 Backscal Source BACKSCAL (Backscal_s)
228-239 F12.10 deg2 BackscalBkg Background BACKSCAL (Backscal_b)
241 I1 --- FSModel [0/6] Index of selected model for
0.5-2keV flux (FSModel) (1)
243 I1 --- FHModel [5/7] Index of selected model for
2.3-5keV flux (FHModel) (2)
245-257 E13.7 ct/s Rate0.2-2.3 Net count rate in 0.2-2.3 keV
(Rated22d3)
259-271 F13.11 ct/s e_Rate0.2-2.3 Net count rate error in 0.2-2.3 keV
(RateErrd22d3)
273-288 E16.9 ct/s Rate0.2-0.5 Net count rate in 0.2-0.5 keV (Rated2d5)
290-302 E13.8 ct/s e_Rate0.2-0.5 Net count rate error in 0.2-0.5 keV
(RateErrd2d5)
304-319 E16.9 ct/s Rate0.5-1 Net count rate in 0.5-1 keV (Rated51)
321-333 E13.8 ct/s e_Rate0.5-1 Net count rate error in 0.5-1 keV
(RateErrd51)
335-350 E16.9 ct/s Rate1-2 Net count rate in 1-2 keV (Rate12)
352-364 E13.8 ct/s e_Rate1-2 Net count rate error in 1-2 keV
(RateErr12)
366-381 E16.9 ct/s Rate2-4.5 Net count rate in 2-4.5 keV (Rate24d5)
383-396 E14.9 ct/s e_Rate2-4.5 Net count rate error in 2-4.5 keV
(RateErr24d5)
398-413 E16.9 ct/s Rate2.3-5 Net count rate in 2.3-5 keV (Rate2d35)
415-428 E14.9 ct/s e_Rate2.3-5 Net count rate error in 2.3-5 keV
(RateErr2d35)
430-445 E16.9 ct/s Rate5-8 Net count rate in 5-8 keV (Rate58)
447-460 E14.9 ct/s e_Rate5-8 Net count rate error in 5-8 keV
(RateErr58)
462-467 F6.1 ct BkgCts0.2-0.6 Background counts in 0.2-0.6 keV
(BkgCtsd2d6)
469-478 F10.7 ct e_BkgCts0.2-0.6 Background counts error in 0.2-0.6 keV
(BkgCtsErrd2d6)
480-485 F6.1 ct BkgCts0.6-2.3 Background counts in 0.6-2.3 keV
(BkgCtsd62d3)
487-496 F10.7 ct e_BkgCts0.6-2.3 Background counts error in 0.6-2.3 keV
(BkgCtsErrd62d3)
498-503 F6.1 ct BkgCts2.3-5 Background counts in 2.3-5 keV
(BkgCts2d35)
505-514 F10.7 ct e_BkgCts2.3-5 Background counts error in 2.3-5 keV
(BkgCtsErr2d35)
516-521 F6.1 ct BkgCts5-8 Background counts in 5-8 keV (BkgCts58)
523-532 F10.7 ct e_BkgCts5-8 Background counts error in 5-8 keV
(BkgCtsErr58)
534-541 F8.6 --- PSFCor0.2-0.5 PSF-loss correction (ARF CORRPSF) averaged
in 0.2-0.5 keV (PSFCord2d5)
543-550 F8.6 --- PSFCor0.5-1 PSF-loss correction (ARF CORRPSF) averaged
in 0.5-1 keV (PSFCord51)
552-559 F8.6 --- PSFCor1-2 PSF-loss correction (ARF CORRPSF) averaged
in 1-2 keV (PSFCor12)
561-569 F9.7 --- PSFCor2.3-5 PSF-loss correction (ARF CORRPSF) averaged
in 2.3-5 keV (PSFCor2d35)
571-573 I3 --- Nempty [35/771] Number of empty channels between
channel 20 and 900 (Nempty)
575-585 E11.6 mW/m2 FluxObsMedS Observed flux in observed 0.5-2 keV,
posterior median (FluxObsvMeds)
587-597 E11.6 mW/m2 b_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma lower limit (FluxObsvLo1s)
599-609 E11.6 mW/m2 B_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma upper limit (FluxObsvUp1s)
611-621 E11.6 mW/m2 FluxObsMedT Observed flux in observed 2.3-5 keV,
posterior median (FluxObsvMedt)
623-633 E11.6 mW/m2 b_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma lower limit (FluxObsvLo1t)
635-645 E11.6 mW/m2 B_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma upper limit (FluxObsvUp1t)
--------------------------------------------------------------------------------
Note (1): Index of selected model for 0.5-2keV flux as follows:
5 = counts-based measurement for faint sources
0 = robust spectra-based measurement
3 = robust spectra-based measurement
6 = robust spectra-based measurement
Note (2): Index of selected model for 2.3-5keV flux as follows:
5 = counts-based measurement for faint sources
7 = robust spectra-based measurement
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table3.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in the eFEDS
main X-ray catalog (Paper I) (ID_SRC)
7- 9 F3.1 --- z The redshift adopted for the spectral
model (Redshift)
11- 22 F12.10 --- lognHKL log AGN column density, KL divergence
(in nats units) (lognH_KL)
24- 33 F10.7 [cm-2] b_lognHH log AGN column density, HDI lower limit
(lognH_HLo)
35- 44 F10.7 [cm-2] B_lognHH log AGN column density, HDI upper limit
(lognH_HUp)
46- 56 F11.9 --- logkTKL log temperature, KL divergence
(in nats units) (logkT_KL)
58- 72 E15.8 [keV] b_logkTH log temperature, HDI lower limit
(logkT_HLo)
74- 88 E15.8 [keV] B_logkTH log temperature, HDI upper limit
(logkT_HUp)
90-101 F12.10 --- logAbundKL log abundance, KL divergence
(in nats units) (logAbundanc_KL)
103-113 F11.8 --- b_logAbunH log abundance, HDI lower limit
(logAbundanc_HLo)
115-129 E15.8 --- B_logAbunH log abundance, HDI upper limit
(logAbundanc_HUp)
131-140 F10.8 --- logApecNormKL log APEC normalization, KL divergence
(in nats units) (logApecNorm_KL)
142-151 F10.7 [cm-5] b_logApecNormH log APEC normalization, HDI lower limit
(logApecNorm_HLo)
153-162 F10.7 [cm-5] B_logApecNormH log APEC normalization, HDI upper limit
(logApecNorm_HUp)
164-173 F10.7 [cm-2] lognHBF log AGN column density, best-fit model
(lognH_BF)
175-189 E15.8 [keV] logkTBF log temperature, best-fit model
(logkT_BF)
191-205 E15.8 --- logAbundBF log abundance, best-fit model
(logAbundanc_BF)
207-216 F10.7 [cm-5] logApecNBF log APEC normalization, best-fit model
(logApecNorm_BF)
218-228 E11.6 mW/m2 FluxObsBFS Observed flux in observed 0.5-2 keV,
best-fit model (FluxObsvBFs)
230-240 E11.6 mW/m2 FluxObsMedS Observed flux in observed 0.5-2 keV,
posterior median (FluxObsvMeds)
242-252 E11.6 mW/m2 b_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma lower limit (FluxObsvLo1s)
254-264 E11.6 mW/m2 B_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma upper limit (FluxObsvUp1s)
266-276 E11.6 mW/m2 b2_FluxObsS Observed flux in observed 0.5-2 keV,
2sigma lower limit (FluxObsvLo2s)
278-288 E11.6 mW/m2 B2_FluxObsS Observed flux in observed 0.5-2 keV,
2sigma upper limit (FluxObsvUp2s)
290-300 E11.6 mW/m2 FluxObsBFT Observed flux in observed 2.3-5 keV,
best-fit model (FluxObsvBFt)
302-312 E11.6 mW/m2 FluxObsMedT Observed flux in observed 2.3-5 keV,
posterior median (FluxObsvMedt)
314-324 E11.6 mW/m2 b_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma lower limit (FluxObsvLo1t)
326-336 E11.6 mW/m2 B_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma upper limit (FluxObsvUp1t)
338-348 E11.6 mW/m2 b2_FluxObsT Observed flux in observed 2.3-5 keV,
2sigma lower limit (FluxObsvLo2t)
350-360 E11.6 mW/m2 B2_FluxObsT Observed flux in observed 2.3-5 keV,
2sigma upper limit (FluxObsvUp2t)
362-371 F10.7 [cm-2] lognHMed log AGN column density, posterior median
(lognH_Med)
373-382 F10.7 [cm-2] b_lognH log AGN column density, percentile
lower limit (lognH_Lo)
384-393 F10.7 [cm-2] B_lognH log AGN column density, percentile
upper limit (lognH_Up)
395-404 F10.7 [cm-2] lognHMean log AGN column density, mean (lognH_Mean)
406-417 F12.10 [cm-2] s_lognH log AGN column density,
standard deviation (lognH_Std)
419-432 E14.8 [keV] logkTMed log temperature, posterior median
(logkT_Med)
434-447 E14.7 [keV] b_logkT log temperature, percentile lower limit
(logkT_Lo)
449-462 E14.8 [keV] B_logkT log temperature, percentile upper limit
(logkT_Up)
464-478 E15.8 [keV] logkTMean log temperature, mean (logkT_Mean)
480-491 F12.10 [keV] s_logkT log temperature, standard deviation
(logkT_Std)
493-504 F12.9 --- logAbundMed log abundance, posterior median
(logAbundanc_Med)
506-516 F11.8 --- b_logAbund log abundance, percentile lower limit
(logAbundanc_Lo)
518-529 F12.9 --- B_logAbund log abundance, percentile upper limit
(logAbundanc_Up)
531-541 F11.8 --- logAbundMean log abundance, mean (logAbundanc_Mean)
543-554 F12.10 --- s_logAbund log abundance, standard deviation
(logAbundanc_Std)
556-565 F10.7 [cm-5] logApecNMed log APEC normalization, posterior median
(logApecNorm_Med)
567-577 F11.7 [cm-5] b_logApecN log APEC normalization, percentile
lower limit (logApecNorm_Lo)
579-588 F10.7 [cm-5] B_logApecN log APEC normalization, percentile
upper limit (logApecNorm_Up)
590-599 F10.7 [cm-5] logApecNMean log APEC normalization, mean
(logApecNorm_Mean)
601-612 F12.10 [cm-5] s_logApecN log APEC normalization,
standard deviation (logApecNorm_Std)
614-629 E16.9 --- logBkgNMed log background normalization,
posterior median (logBkgNorm_Med)
631-643 E13.7 --- b_logBkgN log background normalization,
percentile lower limit (logBkgNorm_Lo)
645-657 E13.8 --- B_logBkgN log background normalization,
percentile upper limit (logBkgNorm_Up)
659-673 E15.9 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
675-686 F12.10 --- s_logBkgN log background normalization,
standard deviation (logBkgNorm_Std)
688-699 F12.6 --- chi25 ?=-99 Chi^2 of the best-fit model against
the rebinned data (≥25 cts/bin) (chi25)
701-703 I3 --- dof25 ?=-99 DOF of the rebinned data, which
has at least 25 counts per bin (dof25)
705-715 F11.6 --- logZ log10 Bayesian evidence (logZ)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table4.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in the
eFEDS main X-ray catalog (Paper I)
(ID_SRC)
7- 15 E9.2 --- z [-0.01/8.0] The redshift adopted for
the spectral model (Redshift)
17- 28 F12.9 --- GammaKL power-law slope, KL divergence
(in nats units) (Gamma_KL)
30- 39 F10.8 --- b_GammaH power-law slope, HDI lower limit
(Gamma_HLo)
41- 49 F9.7 --- B_GammaH power-law slope, HDI upper limit
(Gamma_HUp)
51- 61 F11.9 --- lognHKL log AGN column density,
KL divergence (in nats units)
(lognH_KL)
63- 71 F9.6 [cm-2] b_lognHH log AGN column density,
HDI lower limit (lognH_HLo)
73- 81 F9.6 [cm-2] B_lognHH log AGN column density,
HDI upper limit (lognH_HUp)
83- 92 F10.8 --- logPowNKL log power-law normalization,
KL divergence (in nats units)
(logPowNorm_KL)
94-103 F10.7 ph/keV/cm2/s b_logPowNH log power-law normalization,
HDI lower limit (logPowNorm_HLo)
105-114 F10.7 ph/keV/cm2/s B_logPowNH log power-law normalization,
HDI upper limit (logPowNorm_HUp)
116-127 F12.9 --- GammaBF power-law slope, best-fit model
(Gamma_BF)
129-137 F9.6 [cm-2] lognHBF log AGN column density,
best-fit model (lognH_BF)
139-148 F10.7 ph/keV/cm2/s logPowNBF log power-law normalization,
best-fit model (logPowNorm_BF)
150-160 E11.6 mW/m2 FluxObsBFS Observed flux in observed 0.5-2 keV,
best-fit model (FluxObsvBFs)
162-172 E11.6 mW/m2 FluxObsMedS Observed flux in observed 0.5-2 keV,
posterior median (FluxObsvMeds)
174-184 E11.6 mW/m2 b_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma lower limit (FluxObsvLo1s)
186-196 E11.6 mW/m2 B_FluxObsS Observed flux in observed 0.5-2 keV,
1sigma upper limit (FluxObsvUp1s)
198-208 E11.6 mW/m2 b2_FluxObsS Observed flux in observed 0.5-2 keV,
2sigma lower limit (FluxObsvLo2s)
210-220 E11.6 mW/m2 B2_FluxObsS Observed flux in observed 0.5-2 keV,
2sigma upper limit (FluxObsvUp2s)
222-232 E11.6 mW/m2 FluxObsBFT Observed flux in observed 2.3-5 keV,
best-fit model (FluxObsvBFt)
234-244 E11.6 mW/m2 FluxObsMedT Observed flux in observed 2.3-5 keV,
posterior median (FluxObsvMedt)
246-256 E11.6 mW/m2 b_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma lower limit (FluxObsvLo1t)
258-268 E11.6 mW/m2 B_FluxObsT Observed flux in observed 2.3-5 keV,
1sigma upper limit (FluxObsvUp1t)
270-280 E11.6 mW/m2 b2_FluxObsT Observed flux in observed 2.3-5 keV,
2sigma lower limit (FluxObsvLo2t)
282-292 E11.6 mW/m2 B2_FluxObsT Observed flux in observed 2.3-5 keV,
2sigma upper limit (FluxObsvUp2t)
294-304 E11.6 mW/m2 FluxcBFS Absorption corrected flux in
observed 0.5-2 keV,
best-fit model (FluxCorrBFs)
306-316 E11.6 mW/m2 FluxcMedS Absorption corrected flux in
observed 0.5-2 keV,
posterior median (FluxCorrMeds)
318-328 E11.6 mW/m2 b_FluxcS Absorption corrected flux in
observed 0.5-2 keV,
1sigma lower limit (FluxCorrLo1s)
330-340 E11.6 mW/m2 B_FluxcS Absorption corrected flux in
observed 0.5-2 keV,
1sigma upper limit (FluxCorrUp1s)
342-352 E11.6 mW/m2 b2_FluxcS Absorption corrected flux in
observed 0.5-2 keV,
2sigma lower limit (FluxCorrLo2s)
354-364 E11.6 mW/m2 B2_FluxcS Absorption corrected flux in
observed 0.5-2 keV,
2sigma upper limit (FluxCorrUp2s)
366-376 E11.6 mW/m2 FluxcBFT Absorption corrected flux in
observed 2.3-5 keV, best-fit model
(FluxCorrBFt)
378-388 E11.6 mW/m2 FluxcMedT Absorption corrected flux in
observed 2.3-5 keV,
posterior median (FluxCorrMedt)
390-400 E11.6 mW/m2 b_FluxcT Absorption corrected flux in
observed 2.3-5 keV,
1sigma lower limit (FluxCorrLo1t)
402-412 E11.6 mW/m2 B_FluxcT Absorption corrected flux in
observed 2.3-5 keV,
1sigma upper limit (FluxCorrUp1t)
414-424 E11.6 mW/m2 b2_FluxcT Absorption corrected flux in
observed 2.3-5 keV,
2sigma lower limit (FluxCorrLo2t)
426-436 E11.6 mW/m2 B2_FluxcT Absorption corrected flux in
observed 2.3-5 keV,
2sigma upper limit (FluxCorrUp2t)
438-448 E11.6 mW/m2 FluxIBFS Absorption corrected flux in
rest-frame 0.5-2 keV,
best-fit model (FluxIntrBFs)
450-460 E11.6 mW/m2 FluxIMedS Absorption corrected flux in
rest-frame 0.5-2 keV,
posterior median (FluxIntrMeds)
462-472 E11.6 mW/m2 b_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV,
1sigma lower limit (FluxIntrLo1s)
474-484 E11.6 mW/m2 B_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV,
1sigma upper limit (FluxIntrUp1s)
486-496 E11.6 mW/m2 b2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV,
2sigma lower limit (FluxIntrLo2s)
498-508 E11.6 mW/m2 B2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV,
2sigma upper limit (FluxIntrUp2s)
510-523 E14.8 mW/m2/eV FluxIBF2keV Absorption corrected flux at
rest-frame 2keV, best- fit
(FluxIntrBF2keV)
525-538 E14.8 mW/m2/eV FluxIMed2keV Absorption corrected flux at
rest-frame 2keV, median
(FluxIntrMed2keV)
540-553 E14.8 mW/m2/eV b_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
lower limit (FluxIntrLo12keV)
555-568 E14.8 mW/m2/eV B_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
upper limit (FluxIntrUp12keV)
570-583 E14.8 mW/m2/eV b2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
lower limit (FluxIntrLo22keV)
585-598 E14.8 mW/m2/eV B2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
upper limit (FluxIntrUp22keV)
600-607 F8.4 10-7W LumIBFS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
best-fit model (LumiIntrBFs)
609-616 F8.4 10-7W LumIMedS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
posterior median (LumiIntrMeds)
618-625 F8.4 10-7W b_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
1sigma lower limit (LumiIntrLo1s)
627-634 F8.4 10-7W B_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
1sigma upper limit (LumiIntrUp1s)
636-643 F8.4 10-7W b2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
2sigma lower limit (LumiIntrLo2s)
645-652 F8.4 10-7W B2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
2sigma upper limit (LumiIntrUp2s)
654-663 F10.6 10-7W/eV LumIBF2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, best-fit model
(LumiIntrBF2keV)
665-674 F10.6 10-7W/eV LumIMed2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, posterior median
(LumiIntrMed2keV)
676-685 F10.6 10-7W/eV b_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma lower limit
(LumiIntrLo12keV)
687-696 F10.6 10-7W/eV B_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma upper limit
(LumiIntrUp12keV)
698-707 F10.6 10-7W/eV b2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma lower limit
(LumiIntrLo22keV)
709-718 F10.6 10-7W/eV B2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma upper limit
(LumiIntrUp22keV)
720-729 F10.8 --- GammaMed power-law slope, posterior median
(Gamma_Med)
731-740 F10.8 --- b_Gamma power-law slope, percentile
lower limit (Gamma_Lo)
742-750 F9.7 --- B_Gamma power-law slope, percentile
upper limit (Gamma_Up)
752-761 F10.8 --- GammaMean power-law slope, mean (Gamma_Mean)
763-773 F11.9 --- s_Gamma power-law slope, standard deviation
(Gamma_Std)
775-783 F9.6 [cm-2] lognHMed log AGN column density,
posterior median (lognH_Med)
785-793 F9.6 [cm-2] b_lognH log AGN column density,
percentile lower limit (lognH_Lo)
795-803 F9.6 [cm-2] B_lognH log AGN column density,
percentile upper limit (lognH_Up)
805-813 F9.6 [cm-2] lognHMean log AGN column density,
mean (lognH_Mean)
815-825 F11.9 [cm-2] s_lognH log AGN column density,
standard deviation (lognH_Std)
827-836 F10.7 ph/keV/cm2/s logPowNMed log power-law normalization,
posterior median (logPowNorm_Med)
838-847 F10.7 ph/keV/cm2/s b_logPowN log power-law normalization,
percentile lower limit
(logPowNorm_Lo)
849-858 F10.7 ph/keV/cm2/s B_logPowN log power-law normalization,
percentile upper limit
(logPowNorm_Up)
860-869 F10.7 ph/keV/cm2/s logPowNMean log power-law normalization,
mean (logPowNorm_Mean)
871-882 F12.10 ph/keV/cm2/s s_logPowN log power-law normalization,
standard deviation (logPowNorm_Std)
884-899 E16.9 --- logBkgNMed log background normalization,
posterior median (logBkgNorm_Med)
901-914 F14.11 --- b_logBkgN log background normalization,
percentile lower limit
(logBkgNorm_Lo)
916-929 E14.7 --- B_logBkgN log background normalization,
percentile upper limit
(logBkgNorm_Up)
931-946 E16.9 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
948-959 F12.10 --- s_logBkgN log background normalization,
standard deviation (logBkgNorm_Std)
961-972 F12.6 --- chi25 ?=-99 Chi^2 of the best-fit model
against the rebinned data
(≥25 cts/bin) (chi25)
974-976 I3 --- dof25 ?=-99 DOF of the rebinned data,
which has at least 25 counts per
bin (dof25)
978-988 F11.6 --- logZ log10 Bayesian evidence (logZ)
990 I1 --- NHclass [1/4] Class of AGN NH measurement
with model 1 (single-powerlaw)
(NHclass) (1)
--------------------------------------------------------------------------------
Note (1): Class of AGN NH measurement with model 1 (single-powerlaw)
as follows:
1 = uninformative
2 = unobscured
3 = mildly-measured
4 = well-measured
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table5.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in
the eFEDS main X-ray catalog
(Paper I) (ID_SRC)
7- 15 E9.2 --- z [-0.01/8.0] The redshift adopted
for the spectral model
(Redshift)
17- 28 F12.10 --- dGmKL Soft-powerlaw slope minus
primary-powerlaw slope,
KL divergence (in nats units)
(dGm_KL)
30- 39 F10.8 --- b_dGmH Soft-powerlaw slope minus
primary-powerlaw slope,
HDI lower limit (dGm_HLo)
41- 49 F9.7 --- B_dGmH Soft-powerlaw slope minus
primary-powerlaw slope,
HDI upper limit (dGm_HUp)
51- 63 F13.9 --- GammaKL ? power-law slope,
KL divergence (in nats units)
(Gamma_KL)
65- 74 F10.8 --- b_GammaH power-law slope, HDI lower limit
(Gamma_HLo)
76- 84 F9.7 --- B_GammaH power-law slope, HDI upper limit
(Gamma_HUp)
86- 96 F11.9 --- lognHKL log AGN column density,
KL divergence (in nats units)
(lognH_KL)
98- 106 F9.6 [cm-2] b_lognHH log AGN column density,
HDI lower limit (lognH_HLo)
108- 116 F9.6 [cm-2] B_lognHH log AGN column density,
HDI upper limit (lognH_HUp)
118- 128 F11.9 --- logPowNKL log power-law normalization,
KL divergence (in nats units)
(logPowNorm_KL)
130- 139 F10.7 [ph/keV/cm2/s] b_logPowNH log power-law normalization,
HDI lower limit
(logPowNorm_HLo)
141- 150 F10.7 [ph/keV/cm2/s] B_logPowNH log power-law normalization,
HDI upper limit
(logPowNorm_HUp)
152- 164 F13.10 --- logFracKL ? Constant factor multiplied to
the soft power-law,
KL divergence (in nats units)
(logFrac_KL)
166- 176 F11.8 --- b_logFracH Constant factor multiplied to
the soft power-law,
HDI lower limit (logFrac_HLo)
178- 193 E16.9 --- B_logFracH Constant factor multiplied to
the soft power-law,
HDI upper limit (logFrac_HUp)
195- 202 F8.6 --- dGmBF Soft-powerlaw slope minus
primary-powerlaw slope,
best-fit model (dGm_BF)
204- 214 F11.8 --- GammaBF power-law slope, best-fit model
(Gamma_BF)
216- 224 F9.6 [cm-2] lognHBF log AGN column density,
best-fit model (lognH_BF)
226- 235 F10.7 [ph/keV/cm2/s] logPowNBF log power-law normalization,
best-fit model (logPowNorm_BF)
237- 251 E15.8 --- logFracBF Constant factor multiplied to
the soft power-law, best-fit
model (logFrac_BF)
253- 263 E11.6 mW/m2 FluxObsBFS Observed flux in observed
0.5-2 keV, best-fit model
(FluxObsvBFs)
265- 275 E11.6 mW/m2 FluxObsMedS Observed flux in observed
0.5-2 keV, posterior median
(FluxObsvMeds)
277- 287 E11.6 mW/m2 b_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma lower limit
(FluxObsvLo1s)
289- 299 E11.6 mW/m2 B_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma upper limit
(FluxObsvUp1s)
301- 311 E11.6 mW/m2 b2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma lower limit
(FluxObsvLo2s)
313- 323 E11.6 mW/m2 B2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma upper limit
(FluxObsvUp2s)
325- 335 E11.6 mW/m2 FluxObsBFT Observed flux in observed
2.3-5 keV, best-fit model
(FluxObsvBFt)
337- 347 E11.6 mW/m2 FluxObsMedT Observed flux in observed
2.3-5 keV, posterior median
(FluxObsvMedt)
349- 359 E11.6 mW/m2 b_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma lower limit
(FluxObsvLo1t)
361- 371 E11.6 mW/m2 B_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma upper limit
(FluxObsvUp1t)
373- 383 E11.6 mW/m2 b2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma lower limit
(FluxObsvLo2t)
385- 395 E11.6 mW/m2 B2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma upper limit
(FluxObsvUp2t)
397- 407 E11.6 mW/m2 FluxCBFS Absorption corrected flux in
observed 0.5-2 keV,
best-fit model (FluxCorrBFs)
409- 419 E11.6 mW/m2 FluxCMedS Absorption corrected flux in
observed 0.5-2 keV, posterior
median (FluxCorrMeds)
421- 431 E11.6 mW/m2 b_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
lower limit (FluxCorrLo1s)
433- 443 E11.6 mW/m2 B_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
upper limit (FluxCorrUp1s)
445- 455 E11.6 mW/m2 b2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
lower limit (FluxCorrLo2s)
457- 467 E11.6 mW/m2 B2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
upper limit (FluxCorrUp2s)
469- 479 E11.6 mW/m2 FluxCBFT Absorption corrected flux in
observed 2.3-5 keV,
best-fit model (FluxCorrBFt)
481- 491 E11.6 mW/m2 FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, posterior
median (FluxCorrMedt)
493- 503 E11.6 mW/m2 b_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
lower limit (FluxCorrLo1t)
505- 515 E11.6 mW/m2 B_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
upper limit (FluxCorrUp1t)
517- 527 E11.6 mW/m2 b2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
lower limit (FluxCorrLo2t)
529- 539 E11.6 mW/m2 B2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
upper limit (FluxCorrUp2t)
541- 551 E11.6 mW/m2 FluxIBFS Absorption corrected flux in
rest-frame 0.5-2 keV,
best-fit model (FluxIntrBFs)
553- 563 E11.6 mW/m2 FluxIMedS Absorption corrected flux in
rest-frame 0.5-2 keV,
posterior median
(FluxIntrMeds)
565- 575 E11.6 mW/m2 b_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
lower limit (FluxIntrLo1s)
577- 587 E11.6 mW/m2 B_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
upper limit (FluxIntrUp1s)
589- 599 E11.6 mW/m2 b2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
lower limit (FluxIntrLo2s)
601- 611 E11.6 mW/m2 B2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
upper limit (FluxIntrUp2s)
613- 623 E11.6 mW/m2/eV FluxIBF2keV Absorption corrected flux at
rest-frame 2keV, best-fit
(FluxIntrBF2keV)
625- 635 E11.6 mW/m2/eV FluxIMed2keV Absorption corrected flux at
rest-frame 2keV, median
(FluxIntrMed2keV)
637- 647 E11.6 mW/m2/eV b_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
lower limit (FluxIntrLo12keV)
649- 659 E11.6 mW/m2/eV B_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
upper limit (FluxIntrUp12keV)
661- 671 E11.6 mW/m2/eV b2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
lower limit (FluxIntrLo22keV)
673- 683 E11.6 mW/m2/eV B2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
upper limit (FluxIntrUp22keV)
685- 692 F8.4 10-7W LumIBFS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
best-fit model (LumiIntrBFs)
694- 701 F8.4 10-7W LumIMedS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, posterior
median (LumiIntrMeds)
703- 710 F8.4 10-7W b_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
1sigma lower limit
(LumiIntrLo1s)
712- 719 F8.4 10-7W B_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
1sigma upper limit
(LumiIntrUp1s)
721- 728 F8.4 10-7W b2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
2sigma lower limit
(LumiIntrLo2s)
730- 737 F8.4 10-7W B2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV,
2sigma upper limit
(LumiIntrUp2s)
739- 746 F8.4 10-7W/eV LumIBF2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, best-fit
model (LumiIntrBF2keV)
748- 755 F8.4 10-7W/eV LumIMed2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, posterior
median (LumiIntrMed2keV)
757- 764 F8.4 10-7W/eV b_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma
lower limit (LumiIntrLo12keV)
766- 773 F8.4 10-7W/eV B_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma
upper limit (LumiIntrUp12keV)
775- 782 F8.4 10-7W/eV b2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma
lower limit (LumiIntrLo22keV)
784- 791 F8.4 10-7W/eV B2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma
upper limit (LumiIntrUp22keV)
793- 801 F9.7 --- dGmMed Soft-powerlaw slope minus
primary-powerlaw slope,
posterior median (dGm_Med)
803- 812 F10.8 --- b_dGm Soft-powerlaw slope minus
primary-powerlaw slope,
1sigma lower limit (dGm_Lo)
814- 822 F9.7 --- B_dGm Soft-powerlaw slope minus
primary-powerlaw slope,
1sigma upper limit (dGm_Up)
824- 832 F9.7 --- dGmMean Soft-powerlaw slope minus
primary-powerlaw slope,
mean (dGm_Mean)
834- 844 F11.9 --- s_dGm Soft-powerlaw slope minus
primary-powerlaw slope,
standard deviation (dGm_Std)
846- 855 F10.8 --- GammaMed power-law slope, posterior
median (Gamma_Med)
857- 866 F10.8 --- b_Gamma power-law slope, percentile
lower limit (Gamma_Lo)
868- 876 F9.7 --- B_Gamma power-law slope, percentile
upper limit (Gamma_Up)
878- 887 F10.8 --- GammaMean power-law slope, mean
(Gamma_Mean)
889- 900 E12.7 --- s_Gamma power-law slope,
standard deviation (Gamma_Std)
902- 910 F9.6 [cm-2] lognHMed log AGN column density,
posterior median (lognH_Med)
912- 920 F9.6 [cm-2] b_lognH log AGN column density,
percentile lower limit
(lognH_Lo)
922- 930 F9.6 [cm-2] B_lognH log AGN column density,
percentile upper limit
(lognH_Up)
932- 940 F9.6 [cm-2] lognHMean log AGN column density,
mean (lognH_Mean)
942- 952 F11.9 [cm-2] s_lognH log AGN column density,
standard deviation (lognH_Std)
954- 963 F10.7 [ph/keV/cm2/s] logPowNMed log power-law normalization,
posterior median
(logPowNorm_Med)
965- 974 F10.7 [ph/keV/cm2/s] b_logPowN log power-law normalization,
percentile lower limit
(logPowNorm_Lo)
976- 985 F10.7 [ph/keV/cm2/s] B_logPowN log power-law normalization,
percentile upper limit
(logPowNorm_Up)
987- 996 F10.7 [ph/keV/cm2/s] logPowNMean log power-law normalization,
mean (logPowNorm_Mean)
998-1009 F12.10 [ph/keV/cm2/s] s_logPowN log power-law normalization,
standard deviation
(logPowNorm_Std)
1011-1021 F11.8 --- logFracMed Constant factor multiplied to
the soft power-law,
posterior median (logFrac_Med)
1023-1033 F11.8 --- b_logFrac Constant factor multiplied to
the soft power-law,
1sigma lower limit (logFrac_Lo)
1035-1046 F12.9 --- B_logFrac Constant factor multiplied to
the soft power-law,
1sigma upper limit (logFrac_Up)
1048-1058 F11.8 --- logFracMean Constant factor multiplied to
the soft power-law,
mean (logFrac_Mean)
1060-1069 F10.8 --- s_logFrac Constant factor multiplied to
the soft power-law,
standard deviation
(logFrac_Std)
1071-1086 E16.9 --- logBkgNMed log background normalization,
posterior median
(logBkgNorm_Med)
1088-1101 F14.11 --- b_logBkgN log background normalization,
percentile lower limit
(logBkgNorm_Lo)
1103-1116 E14.7 --- B_logBkgN log background normalization,
percentile upper limit
(logBkgNorm_Up)
1118-1133 E16.9 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
1135-1146 F12.10 --- s_logBkgN log background normalization,
standard deviation
(logBkgNorm_Std)
1148-1159 F12.6 --- chi25 ?=-99 Chi^2 of the best-fit
model against the rebinned
data (≥25 cts/bin) (chi25)
1161-1163 I3 --- dof25 ?=-99 DOF of the rebinned data,
which has at least 25 counts
per bin (dof25)
1165-1175 F11.6 --- logZ log10 Bayesian evidence (logZ)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table6.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in
the eFEDS main X-ray catalog
(Paper I) (ID_SRC)
7- 15 E9.2 --- z [-0.01/8.0] The redshift adopted
for the spectral model
(Redshift)
17- 28 F12.9 --- GammaKL power-law slope, KL divergence
(in nats units) (Gamma_KL)
30- 40 F11.9 --- b_GammaH power-law slope, HDI lower limit
(Gamma_HLo)
42- 50 F9.7 --- B_GammaH power-law slope, HDI upper limit
(Gamma_HUp)
52- 62 F11.9 --- lognHKL log AGN column density,
KL divergence (in nats units)
(lognH_KL)
64- 72 F9.6 [cm-2] b_lognHH log AGN column density,
HDI lower limit (lognH_HLo)
74- 82 F9.6 [cm-2] B_lognHH log AGN column density,
HDI upper limit (lognH_HUp)
84- 94 F11.9 --- logPowNKL log power-law normalization,
KL divergence (in nats units)
(logPowNorm_KL)
96- 105 F10.7 [ph/keV/cm2/s] b_logPowNH log power-law normalization,
HDI lower limit
(logPowNorm_HLo)
107- 116 F10.7 [ph/keV/cm2/s] B_logPowNH log power-law normalization,
HDI upper limit (logPowNorm_HUp)
118- 129 F12.10 --- logkTKL log temperature,
KL divergence (in nats units)
(logkT_KL)
131- 141 F11.8 [keV] b_logkTH log temperature, HDI lower limit
(logkT_HLo)
143- 153 F11.8 [keV] B_logkTH log temperature, HDI upper limit
(logkT_HUp)
155- 166 F12.10 --- logBBNKL log blackbody normalization,
KL divergence (in nats units)
(logBBNorm_KL)
168- 177 F10.7 [10+24W/pc2] b_logBBNH log blackbody normalization in
10+31erg/pc2, HDI
lower limit (logBBNorm_HLo)
179- 188 F10.7 [10+24W/pc2] B_logBBNH log blackbody normalization in
10+31erg/pc2, HDI
upper limit (logBBNorm_HUp)
190- 200 F11.8 --- GammaBF power-law slope, best-fit model
(Gamma_BF)
202- 210 F9.6 [cm-2] lognHBF log AGN column density,
best-fit model (lognH_BF)
212- 221 F10.7 [ph/keV/cm2/s] logPowNBF log power- law normalization,
best-fit model (logPowNorm_BF)
223- 233 F11.8 [keV] logkTBF log temperature, best- fit model
(logkT_BF)
235- 244 F10.7 [10+24W/pc2] logBBNBF log blackbody normalization in
10+31erg/pc2, best-fit
model (logBBNorm_BF)
246- 256 E11.6 mW/m2 FluxObsBFS Observed flux in observed
0.5-2 keV, best-fit model
(FluxObsvBFs)
258- 268 E11.6 mW/m2 FluxObsMedS Observed flux in observed
0.5-2 keV, posterior median
(FluxObsvMeds)
270- 280 E11.6 mW/m2 b_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma lower limit
(FluxObsvLo1s)
282- 292 E11.6 mW/m2 B_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma upper limit
(FluxObsvUp1s)
294- 304 E11.6 mW/m2 b2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma lower limit
(FluxObsvLo2s)
306- 316 E11.6 mW/m2 B2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma upper limit
(FluxObsvUp2s)
318- 328 E11.6 mW/m2 FluxObsBFT Observed flux in observed
2.3-5 keV, best-fit model
(FluxObsvBFt)
330- 340 E11.6 mW/m2 FluxObsMedT Observed flux in observed
2.3-5 keV, posterior median
(FluxObsvMedt)
342- 352 E11.6 mW/m2 b_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma lower limit
(FluxObsvLo1t)
354- 364 E11.6 mW/m2 B_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma upper limit
(FluxObsvUp1t)
366- 376 E11.6 mW/m2 b2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma lower limit
(FluxObsvLo2t)
378- 388 E11.6 mW/m2 B2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma upper limit
(FluxObsvUp2t)
390- 400 E11.6 mW/m2 FluxCBFS Absorption corrected flux in
observed 0.5-2 keV, best-fit
model (FluxCorrBFs)
402- 412 E11.6 mW/m2 FluxCMedS Absorption corrected flux in
observed 0.5-2 keV, posterior
median (FluxCorrMeds)
414- 424 E11.6 mW/m2 b_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
lower limit (FluxCorrLo1s)
426- 436 E11.6 mW/m2 B_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
upper limit (FluxCorrUp1s)
438- 448 E11.6 mW/m2 b2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
lower limit (FluxCorrLo2s)
450- 460 E11.6 mW/m2 B2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
upper limit (FluxCorrUp2s)
462- 472 E11.6 mW/m2 FluxCBFT Absorption corrected flux in
observed 2.3-5 keV, best-fit
model (FluxCorrBFt)
474- 484 E11.6 mW/m2 FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, posterior
median (FluxCorrMedt)
486- 496 E11.6 mW/m2 b_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
lower limit (FluxCorrLo1t)
498- 508 E11.6 mW/m2 B_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
upper limit (FluxCorrUp1t)
510- 520 E11.6 mW/m2 b2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
lower limit (FluxCorrLo2t)
522- 532 E11.6 mW/m2 B2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
upper limit (FluxCorrUp2t)
534- 544 E11.6 mW/m2 FluxIBFS Absorption corrected flux in
rest-frame 0.5-2 keV,
best-fit model (FluxIntrBFs)
546- 556 E11.6 mW/m2 FluxIMedS Absorption corrected flux in
rest-frame 0.5-2 keV, posterior
median (FluxIntrMeds)
558- 568 E11.6 mW/m2 b_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
lower limit (FluxIntrLo1s)
570- 580 E11.6 mW/m2 B_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
upper limit (FluxIntrUp1s)
582- 592 E11.6 mW/m2 b2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
lower limit (FluxIntrLo2s)
594- 604 E11.6 mW/m2 B2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
upper limit (FluxIntrUp2s)
606- 619 E14.8 mW/m2/eV FluxIBF2keV Absorption corrected flux at
rest-frame 2keV, best-fit
(FluxIntrBF2keV)
621- 634 E14.8 mW/m2/eV FluxIMed2keV Absorption corrected flux at
rest-frame 2keV, median
(FluxIntrMed2keV)
636- 649 E14.8 mW/m2/eV b_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
lower limit (FluxIntrLo12keV)
651- 664 E14.8 mW/m2/eV B_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
upper limit (FluxIntrUp12keV)
666- 679 E14.8 mW/m2/eV b2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
lower limit (FluxIntrLo22keV)
681- 694 E14.8 mW/m2/eV B2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
upper limit (FluxIntrUp22keV)
696- 703 F8.4 10-7W LumIBFS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, best-fit
model (LumiIntrBFs)
705- 712 F8.4 10-7W LumIMedS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, posterior
median (LumiIntrMeds)
714- 721 F8.4 10-7W b_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 1sigma
lower limit (LumiIntrLo1s)
723- 730 F8.4 10-7W B_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 1sigma
upper limit (LumiIntrUp1s)
732- 739 F8.4 10-7W b2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 2sigma
lower limit (LumiIntrLo2s)
741- 748 F8.4 10-7W B2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 2sigma
upper limit (LumiIntrUp2s)
750- 759 F10.6 10-7W/eV LumIBF2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, best-fit
model (LumiIntrBF2keV)
761- 770 F10.6 10-7W/eV LumIMed2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, posterior
median (LumiIntrMed2keV)
772- 781 F10.6 10-7W/eV b_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma
lower limit (LumiIntrLo12keV)
783- 792 F10.6 10-7W/eV B_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma
upper limit (LumiIntrUp12keV)
794- 803 F10.6 10-7W/eV b2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma
lower limit (LumiIntrLo22keV)
805- 814 F10.6 10-7W/eV B2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma
upper limit (LumiIntrUp22keV)
816- 825 F10.8 --- GammaMed power-law slope, posterior
median (Gamma_Med)
827- 836 F10.8 --- b_Gamma power-law slope, percentile
lower limit (Gamma_Lo)
838- 846 F9.7 --- B_Gamma power-law slope, percentile
upper limit (Gamma_Up)
848- 857 F10.8 --- GammaMean power-law slope, mean
(Gamma_Mean)
859- 869 F11.9 --- s_Gamma power-law slope,
standard deviation (Gamma_Std)
871- 879 F9.6 [cm-2] lognHMed log AGN column density,
posterior median (lognH_Med)
881- 889 F9.6 [cm-2] b_lognH log AGN column density,
percentile lower limit
(lognH_Lo)
891- 899 F9.6 [cm-2] B_lognH log AGN column density,
percentile upper limit
(lognH_Up)
901- 909 F9.6 [cm-2] lognHMean log AGN column density,
mean (lognH_Mean)
911- 921 F11.9 [cm-2] s_lognH log AGN column density,
standard deviation (lognH_Std)
923- 932 F10.7 [ph/keV/cm2/s] logPowNMed log power-law normalization,
posterior median
(logPowNorm_Med)
934- 943 F10.7 [ph/keV/cm2/s] b_logPowN log power-law normalization,
percentile lower limit
(logPowNorm_Lo)
945- 954 F10.7 [ph/keV/cm2/s] B_logPowN log power-law normalization,
percentile upper limit
(logPowNorm_Up)
956- 965 F10.7 [ph/keV/cm2/s] logPowNMean log power-law normalization,
mean (logPowNorm_Mean)
967- 978 F12.10 [ph/keV/cm2/s] s_logPowN log power-law normalization,
standard deviation
(logPowNorm_Std)
980- 990 F11.8 [keV] logkTMed log temperature, posterior
median (logkT_Med)
992-1002 F11.8 [keV] b_logkT log temperature, percentile
lower limit (logkT_Lo)
1004-1014 F11.8 [keV] B_logkT log temperature, percentile
upper limit (logkT_Up)
1016-1026 F11.8 [keV] logkTMean log temperature, mean
(logkT_Mean)
1028-1039 F12.10 [keV] s_logkT log temperature, standard
deviation (logkT_Std)
1041-1050 F10.7 [10+24W/pc2] logBBNMed log blackbody normalization in
10+31erg/s/pc2, posterior
median (logBBNorm_Med)
1052-1061 F10.7 [10+24W/pc2] b_logBBN log blackbody normalization in
10+31erg/s/pc2, percentile
lower limit (logBBNorm_Lo)
1063-1072 F10.7 [10+24W/pc2] B_logBBN log blackbody normalization in
10+31erg/s/pc2, percentile
upper limit (logBBNorm_Up)
1074-1083 F10.7 [10+24W/pc2] logBBNMean log blackbody normalization in
10+31erg/s/pc2,
mean (logBBNorm_Mean)
1085-1095 F11.9 [10+24W/pc2] s_logBBN log blackbody normalization in
10+31erg/s/pc2, standard
deviation (logBBNorm_Std)
1097-1112 E16.9 --- logBkgNMed log background normalization,
posterior median
(logBkgNorm_Med)
1114-1127 F14.11 --- b_logBkgN log background normalization,
percentile lower limit
(logBkgNorm_Lo)
1129-1143 E15.8 --- B_logBkgN log background normalization,
percentile upper limit
(logBkgNorm_Up)
1145-1160 E16.9 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
1162-1173 F12.10 --- s_logBkgN log background normalization,
standard deviation
(logBkgNorm_Std)
1175-1185 F11.6 --- chi25 ?=-99 Chi^2 of the best-fit
model against the rebinned
data (≥25 cts/bin) (chi25)
1187-1189 I3 --- dof25 ?=-99 DOF of the rebinned data,
which has at least
25 counts per bin (dof25)
1191-1201 F11.6 --- logZ log10 Bayesian evidence (logZ)
1203-1217 F15.11 --- logRbb log blackbody relative strength
at 1keV (logRbb)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table7.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in the
eFEDS main X-ray catalog
(Paper I) (ID_SRC)
7- 15 E9.2 --- z [-0.01/8.0] The redshift adopted
for the spectral model (Redshift)
17- 27 F11.9 --- lognHKL log AGN column density,
KL divergence (in nats units)
(lognH_KL)
29- 37 F9.6 [cm-2] b_lognHH log AGN column density,
HDI lower limit (lognH_HLo)
39- 47 F9.6 [cm-2] B_lognHH log AGN column density,
HDI upper limit (lognH_HUp)
49- 58 F10.8 --- logPowNKL log power-law normalization,
KL divergence (in nats units)
(logPowNorm_KL)
60- 69 F10.7 [ph/keV/cm2/s] b_logPowNH log power-law normalization,
HDI lower limit (logPowNorm_HLo)
71- 80 F10.7 [ph/keV/cm2/s] B_logPowNH log power-law normalization,
HDI upper limit (logPowNorm_HUp)
82- 90 F9.6 [cm-2] lognHBF log AGN column density,
best-fit model (lognH_BF)
92-101 F10.7 [ph/keV/cm2/s] logPowNBF log power-law normalization,
best-fit model (logPowNorm_BF)
103-113 E11.6 mW/m2 FluxObsBFS Observed flux in observed
0.5-2 keV, best-fit model
(FluxObsvBFs)
115-125 E11.6 mW/m2 FluxObsMedS Observed flux in observed
0.5-2 keV, posterior median
(FluxObsvMeds)
127-137 E11.6 mW/m2 b_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma lower limit
(FluxObsvLo1s)
139-149 E11.6 mW/m2 B_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma upper limit
(FluxObsvUp1s)
151-161 E11.6 mW/m2 b2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma lower limit
(FluxObsvLo2s)
163-173 E11.6 mW/m2 B2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma upper limit
(FluxObsvUp2s)
175-185 E11.6 mW/m2 FluxObsBFT Observed flux in observed
2.3-5 keV, best-fit model
(FluxObsvBFt)
187-197 E11.6 mW/m2 FluxObsMedT Observed flux in observed
2.3-5 keV, posterior median
(FluxObsvMedt)
199-209 E11.6 mW/m2 b_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma lower limit
(FluxObsv_Lo1)
211-221 E11.6 mW/m2 B_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma upper limit
(FluxObsv_Up1)
223-233 E11.6 mW/m2 b2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma lower limit
(FluxObsv_Lo2)
235-245 E11.6 mW/m2 B2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma upper limit
(FluxObsv_Up2)
247-257 E11.6 mW/m2 FluxCBFS Absorption corrected flux in
observed 0.5-2 keV, best-fit
model (FluxCorrBFs)
259-269 E11.6 mW/m2 FluxCMedS Absorption corrected flux in
observed 0.5-2 keV, posterior
median (FluxCorrMeds)
271-281 E11.6 mW/m2 b_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
lower limit (FluxCorrLo1s)
283-293 E11.6 mW/m2 B_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
upper limit (FluxCorrUp1s)
295-305 E11.6 mW/m2 b2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
lower limit (FluxCorrLo2s)
307-317 E11.6 mW/m2 B2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
upper limit (FluxCorrUp2s)
319-329 E11.6 mW/m2 FluxCBFT Absorption corrected flux in
observed 2.3-5 keV, best-fit
model (FluxCorrBFt)
331-341 E11.6 mW/m2 FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, posterior
median (FluxCorrMedt)
343-353 E11.6 mW/m2 b_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
lower limit (FluxCorr_Lo1)
355-365 E11.6 mW/m2 B_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
upper limit (FluxCorr_Up1)
367-377 E11.6 mW/m2 b2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
lower limit (FluxCorr_Lo2)
379-389 E11.6 mW/m2 B2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
upper limit (FluxCorr_Up2)
391-401 E11.6 mW/m2 FluxIBFS Absorption corrected flux in
rest-frame 0.5-2 keV, best-fit
model (FluxIntrBFs)
403-413 E11.6 mW/m2 FluxIMedS Absorption corrected flux in
rest-frame 0.5-2 keV, posterior
median (FluxIntrMeds)
415-425 E11.6 mW/m2 b_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
lower limit (FluxIntrLo1s)
427-437 E11.6 mW/m2 B_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
upper limit (FluxIntrUp1s)
439-449 E11.6 mW/m2 b2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
lower limit (FluxIntrLo2s)
451-461 E11.6 mW/m2 B2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
upper limit (FluxIntrUp2s)
463-473 E11.6 mW/m2/eV FluxIBF2keV Absorption corrected flux at
rest-frame 2keV, best- fit
(FluxIntrBF2keV)
475-485 E11.6 mW/m2/eV FluxIMed2keV Absorption corrected flux at
rest-frame 2keV, median
(FluxIntrMed2keV)
487-497 E11.6 mW/m2/eV b_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
lower limit (FluxIntrLo12keV)
499-509 E11.6 mW/m2/eV B_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
upper limit (FluxIntrUp12keV)
511-521 E11.6 mW/m2/eV b2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
lower limit (FluxIntrLo22keV)
523-533 E11.6 mW/m2/eV B2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
upper limit (FluxIntrUp22keV)
535-542 F8.4 10-7W LumIBFS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, best-fit
model (LumiIntrBFs)
544-551 F8.4 10-7W LumIMedS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, posterior
median (LumiIntrMeds)
553-560 F8.4 10-7W b_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 1sigma
lower limit (LumiIntrLo1s)
562-569 F8.4 10-7W B_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 1sigma
upper limit (LumiIntrUp1s)
571-578 F8.4 10-7W b2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 2sigma
lower limit (LumiIntrLo2s)
580-587 F8.4 10-7W B2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 2sigma
upper limit (LumiIntrUp2s)
589-596 F8.4 10-7W/eV LumIBF2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, best-fit model
(LumiIntrBF2keV)
598-605 F8.4 10-7W/eV LumIMed2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, posterior
median (LumiIntrMed2keV)
607-614 F8.4 10-7W/eV b_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma
lower limit (LumiIntrLo12keV)
616-623 F8.4 10-7W/eV B_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma
upper limit (LumiIntrUp12keV)
625-632 F8.4 10-7W/eV b2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma
lower limit (LumiIntrLo22keV)
634-641 F8.4 10-7W/eV B2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma upper
limit (LumiIntrUp22keV)
643-651 F9.6 [cm-2] lognHMed log AGN column density,
posterior median (lognH_Med)
653-661 F9.6 [cm-2] b_lognH log AGN column density,
percentile lower limit (lognH_Lo)
663-671 F9.6 [cm-2] B_lognH log AGN column density,
percentile upper limit (lognH_Up)
673-681 F9.6 [cm-2] lognHMean log AGN column density, mean
(lognH_Mean)
683-694 F12.10 [cm-2] s_lognH log AGN column density,
standard deviation (lognH_Std)
696-705 F10.7 [ph/keV/cm2/s] logPowNMed log power-law normalization,
posterior median (logPowNorm_Med)
707-716 F10.7 [ph/keV/cm2/s] b_logPowN log power-law normalization,
percentile lower limit
(logPowNorm_Lo)
718-727 F10.7 [ph/keV/cm2/s] B_logPowN log power-law normalization,
percentile upper limit
(logPowNorm_Up)
729-738 F10.7 [ph/keV/cm2/s] logPowNMean log power-law normalization,
mean (logPowNorm_Mean)
740-751 F12.10 [ph/keV/cm2/s] s_logPowN log power-law normalization,
standard deviation
(logPowNorm_Std)
753-768 E16.9 --- logBkgNMed log background normalization,
posterior median (logBkgNorm_Med)
770-783 E14.7 --- b_logBkgN log background normalization,
percentile lower limit
(logBkgNorm_Lo)
785-799 E15.8 --- B_logBkgN log background normalization,
percentile upper limit
(logBkgNorm_Up)
801-816 E16.9 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
818-829 F12.10 --- s_logBkgN log background normalization,
standard deviation
(logBkgNorm_Std)
831-841 F11.6 --- logZ log10 Bayesian evidence (logZ)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table8.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in
the eFEDS main X-ray catalog
(Paper I) (ID_SRC)
7- 15 E9.2 --- z [-0.01/8.0] The redshift adopted
for the spectral model
(Redshift)
17- 26 F10.8 --- logPowNKL log power-law normalization,
KL divergence (in nats units)
(logPowNorm_KL)
28- 37 F10.7 [ph/keV/cm2/s] b_logPowNH log power-law normalization,
HDI lower limit (logPowNorm_HLo)
39- 48 F10.7 [ph/keV/cm2/s] B_logPowNH log power-law normalization,
HDI upper limit (logPowNorm_HUp)
50- 59 F10.7 [ph/keV/cm2/s] logPowNBF log power-law normalization,
best-fit model (logPowNorm_BF)
61- 71 E11.6 mW/m2 FluxObsBFS Observed flux in observed
0.5-2 keV, best-fit model
(FluxObsvBFs)
73- 83 E11.6 mW/m2 FluxObsMedS Observed flux in observed
0.5-2 keV, posterior median
(FluxObsvMeds)
85- 95 E11.6 mW/m2 b_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma lower limit
(FluxObsvLo1s)
97-107 E11.6 mW/m2 B_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma upper limit
(FluxObsvs)
109-119 E11.6 mW/m2 b2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma lower limit
(FluxObsvs)
121-131 E11.6 mW/m2 B2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma upper limit
(FluxObsvs)
133-143 E11.6 mW/m2 FluxObsBFT Observed flux in observed
2.3-5 keV, best-fit model
(FluxObsvBFt)
145-155 E11.6 mW/m2 FluxObsMedT Observed flux in observed
2.3-5 keV, posterior median
(FluxObsvMedt)
157-167 E11.6 mW/m2 b_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma lower limit
(FluxObsvLo1t)
169-179 E11.6 mW/m2 B_FluxObsT Observed flux in observed
2.3-5 keV, 1sigma upper limit
(FluxObsvt)
181-191 E11.6 mW/m2 b2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma lower limit
(FluxObsvt)
193-203 E11.6 mW/m2 B2_FluxObsT Observed flux in observed
2.3-5 keV, 2sigma upper limit
(FluxObsvt)
205-215 E11.6 mW/m2 FluxCBFS Absorption corrected flux in
observed 0.5-2 keV,
best-fit model (FluxCorrBFs)
217-227 E11.6 mW/m2 FluxCMedS Absorption corrected flux in
observed 0.5-2 keV, posterior
median (FluxCorrMeds)
229-239 E11.6 mW/m2 b_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
lower limit (FluxCorrLo1s)
241-251 E11.6 mW/m2 B_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 1sigma
upper limit (FluxCorrs)
253-263 E11.6 mW/m2 b2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
lower limit (FluxCorrs)
265-275 E11.6 mW/m2 B2_FluxCS Absorption corrected flux in
observed 0.5-2 keV, 2sigma
upper limit (FluxCorrs)
277-287 E11.6 mW/m2 FluxCBFT Absorption corrected flux in
observed 2.3-5 keV, best-fit
model (FluxCorrBFt)
289-299 E11.6 mW/m2 FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, posterior
median (FluxCorrMedt)
301-311 E11.6 mW/m2 b_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
lower limit (FluxCorrLo1t)
313-323 E11.6 mW/m2 B_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
upper limit (FluxCorrt)
325-335 E11.6 mW/m2 b2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
lower limit (FluxCorrt)
337-347 E11.6 mW/m2 B2_FluxCT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
upper limit (FluxCorrt)
349-359 E11.6 mW/m2 FluxIBFS Absorption corrected flux in
rest-frame 0.5-2 keV, best-fit
model (FluxIntrBFs)
361-371 E11.6 mW/m2 FluxIMedS Absorption corrected flux in
rest-frame 0.5-2 keV, posterior
median (FluxIntrMeds)
373-383 E11.6 mW/m2 b_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
lower limit (FluxIntrLo1s)
385-395 E11.6 mW/m2 B_FluxIS Absorption corrected flux in
rest-frame 0.5-2keV, 1sigma
upper limit (FluxIntrs)
397-407 E11.6 mW/m2 b2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
lower limit (FluxIntrs)
409-419 E11.6 mW/m2 B2_FluxIS Absorption corrected flux in
rest-frame 0.5-2 keV, 2sigma
upper limit (FluxIntrs)
421-431 E11.6 mW/m2/eV FluxIBF2keV Absorption corrected flux at
rest-frame 2keV, best- fit
(FluxIntrBF2keV)
433-443 E11.6 mW/m2/eV FluxIMed2keV Absorption corrected flux at
rest-frame 2keV, median
(FluxIntrMed2keV)
445-455 E11.6 mW/m2/eV b_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
lower limit (FluxIntrLo12keV)
457-467 E11.6 mW/m2/eV B_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 1sigma
upper limit (FluxIntrUp12keV)
469-479 E11.6 mW/m2/eV b2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
lower limit (FluxIntrLo22keV)
481-491 E11.6 mW/m2/eV B2_FluxI2keV Absorption corrected flux at
rest-frame 2keV, 2sigma
upper limit (FluxIntrUp22keV)
493-500 F8.4 10-7W LumIBFS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, best-fit
model (LumiIntrBFs)
502-509 F8.4 10-7W LumIMedS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, posterior
median (LumiIntrMeds)
511-518 F8.4 10-7W b_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 1sigma
lower limit (LumiIntrLo1s)
520-527 F8.4 10-7W B_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 1sigma
upper limit (LumiIntrs)
529-536 F8.4 10-7W b2_LumI2S ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 2sigma
lower limit (LumiIntrs)
538-545 F8.4 10-7W B2_LumIS ?=-99 Intrinsic luminosity in
rest-frame 0.5-2 keV, 2sigma
upper limit (LumiIntrs)
547-554 F8.4 10-7W/eV LumIBF2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, best-fit model
(LumiIntrBF2keV)
556-563 F8.4 10-7W/eV LumIMed2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, posterior
median (LumiIntrMed2keV)
565-572 F8.4 10-7W/eV b_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma lower
limit (LumiIntrLo12keV)
574-581 F8.4 10-7W/eV B_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 1sigma upper
limit (LumiIntrUp12keV)
583-590 F8.4 10-7W/eV b2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma lower
limit (LumiIntrLo22keV)
592-599 F8.4 10-7W/eV B2_LumI2keV ?=-99 Intrinsic luminosity at
rest-frame 2keV, 2sigma upper
limit (LumiIntrUp22keV)
601-610 F10.7 [ph/keV/cm2/s] logPowNMed log power-law normalization,
posterior median
(logPowNorm_Med)
612-621 F10.7 [ph/keV/cm2/s] b_logPowN log power-law normalization,
percentile lower limit
(logPowNorm_Lo)
623-632 F10.7 [ph/keV/cm2/s] B_logPowN log power-law normalization,
percentile upper limit
(logPowNorm_Up)
634-643 F10.7 [ph/keV/cm2/s] logPowNMean log power-law normalization,
mean (logPowNorm_Mean)
645-656 F12.10 [ph/keV/cm2/s] s_logPowN log power-law normalization,
standard deviation
(logPowNorm_Std)
658-672 E15.9 --- logBkgNMed log background normalization,
posterior median
(logBkgNorm_Med)
674-688 E15.8 --- b_logBkgN log background normalization,
percentile lower limit
(logBkgNorm_Lo)
690-704 E15.8 --- B_logBkgN log background normalization,
percentile upper limit
(logBkgNorm_Up)
706-721 E16.9 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
723-734 F12.10 --- s_logBkgN log background normalization,
standard deviation
(logBkgNorm_Std)
736-746 F11.6 --- logZ log10 Bayesian evidence (logZ)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table9.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in the
eFEDS main X-ray catalog
(Paper I) (ID_SRC)
7- 15 E9.2 --- z [-0.01/8.0] The redshift adopted
for the spectral model (Redshift)
17- 28 F12.9 --- GammaKL power-law slope, KL divergence
(in nats units) (Gamma_KL)
30- 39 F10.8 --- b_GammaH power-law slope, HDI lower limit
(Gamma_HLo)
41- 49 F9.7 --- B_GammaH power-law slope, HDI upper limit
(Gamma_HUp)
51- 61 F11.9 --- lognHKL log AGN column density,
KL divergence (in nats units)
(lognH_KL)
63- 71 F9.6 [cm-2] b_lognHH log AGN column density,
HDI lower limit (lognH_HLo)
73- 81 F9.6 [cm-2] B_lognHH log AGN column density,
HDI upper limit (lognH_HUp)
83- 93 F11.9 --- logPowNKL log power-law normalization,
KL divergence (in nats units)
(logPowNorm_KL)
95-105 F11.8 [ph/keV/cm2/s] b_logPowNH log power-law normalization,
HDI lower limit (logPowNorm_HLo)
107-119 F13.10 [ph/keV/cm2/s] B_logPowNH log power-law normalization,
HDI upper limit (logPowNorm_HUp)
121-131 F11.8 --- GammaBF power-law slope, best-fit model
(Gamma_BF)
133-141 F9.6 [cm-2] lognHBF log AGN column density,
best-fit model (lognH_BF)
143-157 E15.8 [ph/keV/cm2/s] logPowNBF log power-law normalization,
best-fit model (logPowNorm_BF)
159-169 E11.6 mW/m2 FluxObsBFS Observed flux in observed
0.5-2 keV, best-fit model
(FluxObsvBFs)
171-181 E11.6 mW/m2 FluxObsMedS Observed flux in observed
0.5-2 keV, posterior median
(FluxObsvMeds)
183-193 E11.6 mW/m2 b_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma lower limit
(FluxObsvLo1s)
195-205 E11.6 mW/m2 B_FluxObsS Observed flux in observed
0.5-2 keV, 1sigma upper limit
(FluxObsvUp1s)
207-217 E11.6 mW/m2 b2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma lower limit
(FluxObsvLo2s)
219-229 E11.6 mW/m2 B2_FluxObsS Observed flux in observed
0.5-2 keV, 2sigma upper limit
(FluxObsvUp2s)
231-240 F10.8 --- GammaMed power-law slope, posterior median
(Gamma_Med)
242-251 F10.8 --- b_Gamma power-law slope, percentile
lower limit (Gamma_Lo)
253-261 F9.7 --- B_Gamma power-law slope, percentile
upper limit (Gamma_Up)
263-271 F9.7 --- GammaMean power-law slope, mean (Gamma_Mean)
273-283 F11.9 --- s_Gamma power-law slope,
standard deviation (Gamma_Std)
285-293 F9.6 [cm-2] lognHMed log AGN column density,
posterior median (lognH_Med)
295-303 F9.6 [cm-2] b_lognH log AGN column density, percentile
lower limit (lognH_Lo)
305-313 F9.6 [cm-2] B_lognH log AGN column density, percentile
upper limit (lognH_Up)
315-323 F9.6 [cm-2] lognHMean log AGN column density,
mean (lognH_Mean)
325-335 F11.9 [cm-2] s_lognH log AGN column density,
standard deviation (lognH_Std)
337-347 F11.8 [ph/keV/cm2/s] logPowNMed log power-law normalization,
posterior median (logPowNorm_Med)
349-359 F11.8 [ph/keV/cm2/s] b_logPowN log power-law normalization,
percentile lower limit
(logPowNorm_Lo)
361-372 F12.9 [ph/keV/cm2/s] B_logPowN log power-law normalization,
percentile upper limit
(logPowNorm_Up)
374-384 F11.8 [ph/keV/cm2/s] logPowNMean log power-law normalization,
mean (logPowNorm_Mean)
386-397 F12.10 [ph/keV/cm2/s] s_logPowN log power-law normalization,
standard deviation
(logPowNorm_Std)
399-414 E16.9 --- logBkgNMed log background normalization,
posterior median (logBkgNorm_Med)
416-430 E15.8 --- blogBkgN log background normalization,
percentile lower limit
(logBkgNorm_Lo)
432-447 E16.9 --- BlogBkgN log background normalization,
percentile upper limit
(logBkgNorm_Up)
449-463 E15.8 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
465-476 F12.10 --- logBkgN log background normalization,
standard deviation
(logBkgNorm_Std)
478-489 F12.7 --- logZ log10 Bayesian evidence (logZ)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table10.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID-SRC [1/32683] ID of the sources in the
eFEDS main X-ray catalog
(Paper I) (ID_SRC)
7- 15 E9.2 --- z [-0.01/8.0] The redshift adopted
for the spectral model (Redshift)
17- 27 F11.9 --- GammaKL power-law slope, KL divergence
(in nats units) (Gamma_KL)
29- 37 F9.7 --- e_Gamma power-law slope, HDI lower limit
(Gamma_HLo)
39- 47 F9.7 --- E_Gamma power-law slope, HDI upper limit
(Gamma_HUp)
49- 60 F12.10 --- lognHKL log AGN column density,
KL divergence (in nats units)
(lognH_KL)
62- 70 F9.6 [cm-2] b_lognH log AGN column density,
HDI lower limit (lognH_HLo)
72- 80 F9.6 [cm-2] B_lognH log AGN column density,
HDI upper limit (lognH_HUp)
82- 92 F11.9 --- logPowNKL log power-law normalization,
KL divergence (in nats units)
(logPowNorm_KL)
94-103 F10.7 [ph/keV/cm2/s] b_logPowN log power-law normalization,
HDI lower limit (logPowNorm_HLo)
105-116 F12.9 [ph/keV/cm2/s] B_logPowN log power-law normalization,
HDI upper limit (logPowNorm_HUp)
118-128 F11.8 --- GammaBF power-law slope, best-fit model
(Gamma_BF)
130-138 F9.6 [cm-2] lognHBF log AGN column density,
best-fit model (lognH_BF)
140-152 F13.10 [ph/keV/cm2/s] logPowNBF log power-law normalization,
best-fit model (logPowNorm_BF)
154-164 E11.6 mW/m2 FluxObsBFT Observed flux in observed 2.3-5keV,
best-fit model (FluxObsvBFt)
166-176 E11.6 mW/m2 FluxObsMedT Observed flux in observed 2.3-5keV,
posterior median (FluxObsvMedt)
178-188 E11.6 mW/m2 b_FluxObsT Observed flux in observed 2.3-5keV,
1sigma lower limit
(FluxObsvLo1t)
190-200 E11.6 mW/m2 B_FluxObsT Observed flux in observed 2.3-5keV,
1sigma upper limit
(FluxObsvUp1t)
202-212 E11.6 mW/m2 b2_FluxObsT Observed flux in observed 2.3-5keV,
2sigma lower limit
(FluxObsvLo2t)
214-224 E11.6 mW/m2 B2_FluxObsT Observed flux in observed 2.3-5keV,
2sigma upper limit
(FluxObsvUp2t)
226-236 E11.6 mW/m2 FluxCBFT Absorption corrected flux in
observed 2.3-5 keV, best-fit model
(FluxCorrBFt)
238-248 E11.6 mW/m2 FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, posterior
median (FluxCorrMedt)
250-260 E11.6 mW/m2 b_FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
lower limit (FluxCorrLo1t)
262-272 E11.6 mW/m2 B_FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, 1sigma
upper limit (FluxCorrUp1t)
274-284 E11.6 mW/m2 b2_FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
lower limit (FluxCorrLo2t)
286-296 E11.6 mW/m2 B2_FluxCMedT Absorption corrected flux in
observed 2.3-5 keV, 2sigma
upper limit (FluxCorrUp2t)
298-306 F9.7 --- GammaMed power-law slope, posterior median
(Gamma_Med)
308-316 F9.7 --- b_GammaMed power-law slope, percentile
lower limit (Gamma_Lo)
318-326 F9.7 --- B_GammaMed power-law slope, percentile
upper limit (Gamma_Up)
328-336 F9.7 --- GammaMean power-law slope, mean (Gamma_Mean)
338-347 F10.8 --- s_Gamma power-law slope,
standard deviation (Gamma_Std)
349-357 F9.6 [cm-2] lognHMed log AGN column density,
posterior median (lognH_Med)
359-367 F9.6 [cm-2] b_lognHMed log AGN column density,
percentile lower limit (lognH_Lo)
369-377 F9.6 [cm-2] B_lognHMed log AGN column density,
percentile upper limit (lognH_Up)
379-387 F9.6 [cm-2] lognHMean log AGN column density,
mean (lognH_Mean)
389-398 F10.8 [cm-2] s_lognH log AGN column density,
standard deviation (lognH_Std)
400-409 F10.7 [ph/keV/cm2/s] logPowNMed log power-law normalization,
posterior median (logPowNorm_Med)
411-420 F10.7 [ph/keV/cm2/s] b_logPowNMed log power-law normalization,
percentile lower limit
(logPowNorm_Lo)
422-432 F11.8 [ph/keV/cm2/s] B_logPowNMed log power-law normalization,
percentile upper limit
(logPowNorm_Up)
434-443 F10.7 [ph/keV/cm2/s] logPowNMean log power-law normalization,
mean (logPowNorm_Mean)
445-454 F10.8 [ph/keV/cm2/s] s_logPowN log power-law normalization,
standard deviation
(logPowNorm_Std)
456-470 E15.9 --- logBkgNMed log background normalization,
posterior median (logBkgNorm_Med)
472-486 E15.8 --- b_logBkgNMed log background normalization,
percentile lower limit
(logBkgNorm_Lo)
488-502 E15.8 --- B_logBkgNMed log background normalization,
percentile upper limit
(logBkgNorm_Up)
504-518 E15.8 --- logBkgNMean log background normalization,
mean (logBkgNorm_Mean)
520-531 F12.10 --- s_logBkgN log background normalization,
standard deviation
(logBkgNorm_Std)
533-543 F11.7 --- logZ log10 Bayesian evidence (logZ)
--------------------------------------------------------------------------------
History:
From Teng Liu, liu(at)mpe.mpg.de
Acknowledgements:
This work is based on data from eROSITA, the soft X-ray instrument
aboard SRG, a joint Russian-German science mission supported by the
Russian Space Agency (Roskosmos), in the interests of the Russian
Academy of Sciences represented by its Space Research Institute (IKI),
and the Deutsches Zentrum fuer Luft- und Raumfahrt (DLR). The SRG
spacecraft was built by Lavochkin Association (NPOL) and its
subcontractors, and is operated by NPOL with support from the Max
Planck Institute for Extraterrestrial Physics (MPE). The development
and construction of the eROSITA X-ray instrument was led by MPE, with
contributions from the Dr. Karl Remeis Observatory Bamberg & ECAP (FAU
Erlangen-Nuernberg), the University of Hamburg Observatory, the
Leibniz Institute for Astrophysics Potsdam (AIP), and the Institute
for Astronomy and Astrophysics of the University of Tuebingen, with
the support of DLR and the Max Planck Society. The Argelander
Institute for Astronomy of the University of Bonn and the Ludwig
Maximilians Universitat Munich also participated in the science
preparation for eROSITA. The eROSITA data shown here were processed
using the eSASS software system developed by the German eROSITA
consortium.
References:
The Early Data Release of eROSITA and Mikhail Pavlinsky ART-XC on the
SRG mission, 2022, A&A, 661, A1-A46
Bruner et al., Paper I 2022A&A...661A...1B 2022A&A...661A...1B, Cat. J/A+A/661/A1
Salvato et al., Paper II 2022A&A...661A...3S 2022A&A...661A...3S, Cat. J/A+A/661/A3
(End) Patricia Vannier [CDS] 30-Mar-2022