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MARANOXMM - Marano Field XMM-Newton X-Ray Source Optical Counterparts |
HEASARC Archive |
Overview
This table contains some of the results from a medium deep XMM-Newton survey of the Marano Field and optical follow-up observations. The mosaicked XMM-Newton pointings in this optical quasar survey field cover 0.6 deg2 with a total of 120 ks good observation time. 328 X-ray sources were detected in total with detection likelihoods ML >= 5. The X-ray fluxes are in the range fX = (0.16 - 54) x 10-14 erg cm-2 s-1 (0.2 - 10 keV). The turnover flux of this sample is fX ~ 5 x 10-15 erg/cm2/s in this same energy band. With VLT FORS1 and FORS2 spectroscopy 96 new X-ray counterparts have been classified.The central 0.28 deg2 region, where detailed optical follow-up observations were performed, contains ~ 170 X-ray sources (detection likelihood ML > 10), out of which 48 had already been detected by ROSAT. In this region 23 out of 29 optically selected quasars have been recovered. With a total of 110 classifications in their core sample, the authors have reached a completeness of ~65%. About one-third of the XMM-Newton sources are classified as type II AGN with redshifts mostly below 1.0. Furthermore, five high redshift type II AGN (2.2 <= z <= 2.8) have been detected.
This table contains the list of the 195 optical counterparts for 172 of the XMM-Newton X-ray sources given in Table 8 of the reference paper. It does not contain the full list of 328 X-ray sources given in Table A1 of the reference paper, nor the lists of marginal X-ray sources given in Appendix B of the reference paper.
Catalog Bibcode
2007A&A...466...41KReferences
The XMM-Newton survey in the Marano Field.
I. The X-ray data and optical follow-up.
Krumpe M., Lamer G., Schwope A.D., Wagner S., Zamorani G., Mignoli M.,
Staubert R., Wisotzki L., Hasinger G
<Astron. Astrophys. 466, 41 (2007)>
=2007A&A...466...41K (SIMBAD/NED BibCode)
Provenance
This table was created by the HEASARC in May 2007 based on CDS catalog J/A+A/466/41 file table8.dat.Parameters
Source_Number
A running source number which uniquely identifies the counterpart object to
the XMM-Newton X-ray source, consisting of the sequence number from the X-ray
source list and a suffix (A, B) to discriminate between different optical
candidates.
Name
The name of the X-ray source optical counterpart using the '[KLS2007]'
prefix (where KLS2007 refers to Krumpe, Lamer, Schwope 2007), together with the
source number, in the style recommended by the CDS Dictionary of Nomenclature
of Celestial Objects (although, as of May 2007, this designation had not
been officially adopted by the CDS).
RA
The Right Ascension of the optical candidate counterpart in the
selected equinox. This was given in J2000.0 coordinates to a precision of 0.1
seconds of time in the original table.
Dec
The Declination of the optical candidate counterpart in the
selected equinox. This was given in J2000.0 coordinates to a precision of 1
arcsecond in the original table.
LII
The Galactic Longitude of the optical counterpart.
BII
The Galactic Latitude of the optical counterpart.
Offset
The spatial offset between the X-ray source position and that of
the optical counterpart, in arcseconds.
Kmag
The SOFI K-band magnitude of the spectroscopically classified
candidate, whenever available.
Rc_Mag
The WFI R-band magnitude of the spectroscopically classified
candidate, whenever available.
Source_Type
A crude spectroscopic classification of the identified object:
S - star,
G - normal galaxy (no emission lines),
N - narrow emission line galaxy with unresolved emission lines (at 6000
Angstroms, the spectral resolution of 21 A corresponds to 1050 km s-1),
B - broad emission line object (all measured line widths have FWHM > 2500
km s-1), and
? - undefined.
Redshift
The spectroscopic redshift z of the identified object. The redshift is taken
from the literature for objects which have xray_id_flag values of 0 or 1, and
null values of the redshift_flag and source_type_flag parameters. In such
cases, the remark_flag parameter contains codes identifying the source(s) of
the redshift determination and the classification.
Xray_Id_Flag
This parameter contains the X-ray identification flag which indicates whether
or not a spectroscopically classified object was accepted as the 'true'
counterpart to the X-ray source. Objects which the authors consider to be the
correct identification of the X-ray source are flagged by 1, while values of
0 mark objects which are not considered to be the X-ray source counterparts.
Redshift_Flag
This parameter contains the redshift reliability flag, where a value of 1
means a reliable, well-established redshift determined by several spectral
features, while 0 marks objects where the redshift determination relies on a
single but reasonable spectral feature.
Source_Type_Flag
This parameter contains the classification reliability flag, where a value of
1 indicates that the object source type is well established and reliable,
while a value of 0 indicates an uncertain classification of the object type:
either high-SNR spectral features of the object do not allow a proper
classification, or the optical spectra do not permit a reliable
classification of the object type because of a low SNR and/or insufficient
wavelength coverage of the optical spectra.
Log_Lx_Obs
The observed rest-frame X-ray luminosity LX (logarithmic units) in the 0.2
- 10 keV energy band calculated by using Eq. (1) in the reference paper [LX
= 4 pi x dL2 x fX/(z + 1)(alpha + 1)]. The k-correction vanishes
since the authors assume an energy index alpha = -1 with Fnu ~ nualpha ~
nu(1- Gamma), where Gamma is the photon index. The luminosity distance dL
was computed by the analytical fit for flat cosmologies with OmegaM = 0.3,
OmegaLambda = 0.7, and H0 = 70 km s-1 Mpc-1.
Abs_Bmag
The absolute Johnson B magnitude, MB, estimated only for type I AGN, using
the relation MB = R + 5 - 5 log (dL/pc) + K(z), where dL is the
luminosity distance and K(z) is the customary k-correction term. In this
case, this term includes the transition from observed-frame R-band to
rest-frame B-band, assuming a mean spectral energy distribution for all
sources, and also the (1+z) bandwidth stretching factor. For the type I AGN
the authors computed K(z) from the composite SDSS quasar spectrum (Vanden
Berk et al. 2001, AJ, 122, 549).
Spectral_Index
The broad-band spectral index alphaOX. This parameter roughly characterizes
the UV-X-ray spectral energy distribution by connecting the rest-frame points
at 2500 Angstroms and 1 keV with a simple power-law, Fnu ~
nu(-alphaOX). Full details on the procedure for calculating alphaOX are
given in Section 3 of the reference paper.
NH
The X-ray absorbing hydrogen column density, NH, in units of H atoms
cm-2 (see Section 4.4 of the reference paper for more details).
NH_Neg_Err
The negative error in NH, in units of H atoms cm-2.
NH_Pos_Err
The positive error in NH, in units of H atoms cm-2.
Log_Lx
The intrinsic rest-frame X-ray luminosity (logarithmic units) in the
0.2 - 10 keV energy band after X-ray flux correction for the absorbing hydrogen
column density. The calculation uses Eq. (1) of the reference paper
[LX = 4 pi x dL2 x fX/(z + 1)(alpha + 1)].
Remark_Flag
This parameter contains codes for remarks on individual
objects, as follows:
1 - optically selected and spectroscopically classified quasar by Marano et
al. (1988, MNRAS, 232, 111);
2 - optically selected and spectroscopically classified quasar by Zitelli et
al. (1992, MNRAS, 256, 349);
3 - ROSAT X-ray source with spectroscopic classification and redshift
determination by Zamorani et al. (1999, A&A, 346, 731);
4 - ROSAT X-ray source with no or wrong identification by Zamorani et al.
(1999, A&A, 346, 731);
5 - unclassified radio objects within 5.0 arcseconds, Gruppioni et al.
(1999, MNRAS, 304, 199);
6 - spectroscopic classification and redshift taken from Teplitz et al.
(2003, ApJS, 146, 209);
7 - radio source, spectroscopic classification and redshift taken from
Gruppioni et al. (1999, MNRAS, 304, 199).
Note_Flag
This parameter contains a value of 'Y' if there is an
individual comment about an object given in Sect. 3.1 of the reference paper
(also available in the file
https://cdsarc.cds.unistra.fr/ftp/cats/J/A+A/466/41/notes.dat ).
Class
The HEASARC Browse object classification based on the value of the
source_type parameter.
Contact Person
Questions regarding the MARANOXMM database table can be addressed to the HEASARC Help Desk.Page Author: Browse Software Development Team
Last Modified: Friday, 08-Nov-2024 14:52:22 EST
- HEASARC Director: Dr. Andy Ptak
- NASA Official: Dr. Andy Ptak
- Web Curator: J.D. Myers
- Last Modified: 8-Nov-2024