J/A+A/527/A126 2XMMi/SDSS DR7 cross-correlation (Pineau+, 2011)
Cross-correlation of the 2XMMi catalogue with Data Release 7 of the
Sloan Digital Sky Survey.
Pineau F.-X., Motch C., Carrera F., Della Ceca R., Derriere S., Michel L.,
Schwope A., Watson M.G.
<Astron. Astrophys. 527, A126 (2011)>
=2011A&A...527A.126P 2011A&A...527A.126P (SIMBAD/NED BibCode)
ADC_Keywords: Surveys ; X-ray sources ; Photometry, SDSS ; Cross identifications
Keywords: methods: statistical - catalogs - X-rays: general - stars: activity -
quasars: general
Abstract:
The Survey Science Centre of the XMM-Newton satellite released the
first incremental version of the 2XMM catalogue in August 2008.
Containing more than 220000 X-ray sources, the 2XMMi was at that time
the largest catalogue of X-ray sources ever published and thus
constitutes an unprecedented resource for studying the high-energy
properties of various classes of X-ray emitters such as AGN and stars.
Thanks to the high throughput of the EPIC cameras on board XMM-Newton
accurate positions, fluxes, and hardness ratios are available for a
substantial fraction of the X-ray detections. The advent of the 7th
release of the Sloan Digital Sky Survey offers the opportunity to
cross-match two major surveys and extend the spectral energy
distribution of many 2XMMi sources towards the optical bands. This
implies building extensive homogeneous samples with a statistically
controlled rate of spurious matches and completeness. We here present
a cross-matching algorithm based on the classical likelihood ratio
estimator. The method developed has the advantage of providing true
probabilities of identifications without resorting to heavy
Monte-Carlo simulations.
Description:
Results of the statistical cross-match based on likelihood ratios
between the incremental Second XMM-Newton Serendipitous Source
Catalogue (2XMMi) and the Seventh Data Release of the Sloan Digital
Sky Survey (SDSS DR7). The cross-match is limited to 2XMMi point-like
sources (epextml<4) with a positional error smaller or equal to 5
arcsec, and to SDSS DR7 primary sources. We considered the individual
XMM source detection positions and errors on positions available in
the XCATDB (http://xcatdb.u-strasbg.fr/2xmmi/home).
The table contains 72169 distinct associations for 72171 rows. For
each association, the table provides: parameters extracted from the
2XMMi catalogue ; cross-match parameters ; and parameters extracted
from both the SDSS DR7 catalogue and CasJobs
(http://cas.sdss.org/CasJobs/).
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
catalog.dat 3524 72171 2XMMi versus SDSSDR7 cross-match catalog
2XMMivsSDSSDR7.fits 2880 42929 FITS version of the catalog
--------------------------------------------------------------------------------
See also:
B/xmm : XMM-Newton Observation Log (XMM-Newton SOC, 2009)
IX/37 : XMM-Newton Serendipitous Source Catalogue (1XMM) (XMM-SSC, 2003)
IX/40 : XMM-Newton 2nd Inc. Source Cat. (2XMMi) (XMM-SSC, 2008)
IX/41 : XMM-Newton Serendipitous Source Catalogue 2XMMi-DR3 (XMM-SSC, 2010)
J/A+A/493/339 : XMM-Newton serendipitous Survey. V. (Watson+, 2009)
http://cas.sdss.org/CasJobs : SDSS Query / CasJobs Home Page
http://xmmssc-www.star.le.ac.uk : XMM Home Page
http://www.sdss.org : SDSS Home Page
Byte-by-byte Description of file: catalog.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 10 A10 --- Obsno XMM-Newton observation identifier
12- 14 I3 --- srcNum XMM observation source identifier in Obsno
16- 21 I6 --- srcId [1/221135] XMM unique source identifier
23- 44 A22 --- Name XMM unique source IAU name,
2XMM or 2XMMi JHHMMSS.s+DDMMSS
46- 51 I6 --- detid [1/289033] XMM detection identifier
53- 66 E14.9 deg RAdeg XMM corrected Right Ascension of
detection (J2000)
68- 83 E16.11 deg DEdeg XMM corrected Declination of
detection (J2000)
85- 99 E15.10 deg GLON XMM corrected galactic longitude of
detection
101- 115 E15.10 deg GLAT XMM corrected galactic latitude of
1detection
117- 128 E12.7 arcsec ePos Statistical 1σ Error on detection
position
130- 137 E8.3 arcsec sPos XMM estimated systematic 1σ Error
on the detection position
139 I1 --- extML [0] XMM likelihood of the detection being
extended
141- 152 A12 --- PNflag [FT] XMM PN flag (False/True)
154 I1 --- S [0/4] XMM Summary flag of the source (1)
156- 166 E11.6 --- Cst ?=- XMM Chi2 probability that the source
is constant
168 A1 --- V [FT] XMM flag set to True if this source
was detected as variable
170- 175 A6 --- PN_Filter XMM PN Filter (Thick, Medium, Thin1 or
UNDEF)
177- 187 E11.6 mW/m2 PN_1Flux ?=- XMM Flux in 0.2-0.5keV for PN
189- 199 E11.6 mW/m2 ePN1Flux ?=- Error on PN_1Flux
201- 211 E11.6 mW/m2 PN_2Flux ?=- XMM Flux in 0.5-1.0keV for PN
213- 223 E11.6 mW/m2 ePN2Flux ?=- Error on PN_2Flux
225- 235 E11.6 mW/m2 PN_3Flux ?=- XMM Flux in 1.0-2.0keV for PN
237- 247 E11.6 mW/m2 ePN3Flux ?=- Error on PN_3Flux
249- 259 E11.6 mW/m2 PN_4Flux ?=- XMM Flux in 2.0-4.5keV for PN
261- 271 E11.6 mW/m2 ePN4Flux ?=- Error on PN_4Flux
273- 283 E11.6 mW/m2 PN_5Flux ?=- XMM Flux in 4.5-12.0keV for PN
285- 295 E11.6 mW/m2 ePN5Flux ?=- Error on PN_5Flux
297- 307 E11.6 mW/m2 PN_8Flux ?=- XMM Flux in 0.2-12.0keV for PN
309- 319 E11.6 mW/m2 ePN8Flux ?=- Error on PN_8Flux
321- 332 E12.7 --- PN_HR1 ?=- XMM Hardness ratio 1 for PN (2)
334- 347 E14.9 --- ePNHR1 ?=- Error on PN_HR1
349- 360 E12.7 --- PN_HR2 ?=- XMM Hardness ratio 2 for PN (2)
362- 372 E11.6 --- ePNHR2 ?=- Error on PN_HR2
374- 385 E12.7 --- PN_HR3 ?=- XMM Hardness ratio 3 for PN (2)
387- 397 E11.6 --- ePNHR3 ?=- Error on PN_HR3
399- 410 E12.7 --- PN_HR4 ?=- XMM Hardness ratio 4 for PN (2)
412- 424 E13.8 --- ePNHR4 ?=- Error on PN_HR4
426- 431 A6 --- M1_Filter XMM M1 Filter
433- 443 E11.6 mW/m2 M1_1Flux ?=- XMM Flux in 0.2-0.5keV for M1
445- 455 E11.6 mW/m2 eM11Flux ?=- Error on M1_1Flux
457- 467 E11.6 mW/m2 M1_2Flux ?=- XMM Flux in 0.5-1.0keV for M1
469- 479 E11.6 mW/m2 eM12Flux ?=- Error on M1_2Flux
481- 491 E11.6 mW/m2 M1_3Flux ?=- XMM Flux in 1.0-2.0keV for M1
493- 503 E11.6 mW/m2 eM13Flux ?=- Error on M1_3Flux
505- 515 E11.6 mW/m2 M1_4Flux ?=- XMM Flux in 2.0-4.5keV for M1
517- 527 E11.6 mW/m2 eM14Flux ?=- Error on M1_4Flux
529- 539 E11.6 mW/m2 M1_5Flux ?=- XMM Flux in 4.5-12.0keV for M1
541- 551 E11.6 mW/m2 eM15Flux ?=- Error on M1_5Flux
553- 563 E11.6 mW/m2 M1_8Flux ?=- XMM Flux in 0.2-12.0keV for M1
565- 575 E11.6 mW/m2 eM18Flux ?=- Error on M1_8Flux
577- 588 E12.7 --- M1_HR1 ?=- XMM Hardness ratio 1 for M1 (2)
590- 600 E11.6 --- eM1HR1 ?=- Error on M1_HR1
602- 613 E12.7 --- M1_HR2 ?=- XMM Hardness ratio 2 for M1 (2)
615- 625 E11.6 --- eM1HR2 ?=- Error on M1_HR2
627- 638 E12.7 --- M1_HR3 ?=- XMM Hardness ratio 3 for M1 (2)
640- 650 E11.6 --- eM1HR3 ?=- Error on M1_HR3
652- 663 E12.7 --- M1_HR4 ?=- XMM Hardness ratio 4 for M1 (2)
665- 678 E14.10 --- eM1HR4 ?=- Error on M1_HR4
680- 685 A6 --- M2_Filter XMM M2 Filter
687- 697 E11.6 mW/m2 M2_1Flux ?=- XMM Flux in 0.2-0.5keV for M2
699- 709 E11.6 mW/m2 eM21Flux ?=- Error on M2_1Flux
711- 721 E11.6 mW/m2 M2_2Flux ?=- XMM Flux in 0.5-1.0keV for M2
723- 733 E11.6 mW/m2 eM22Flux ?=- Error on M2_2Flux
735- 745 E11.6 mW/m2 M2_3Flux ?=- XMM Flux in 1.0-2.0keV for M2
747- 757 E11.6 mW/m2 eM23Flux ?=- Error on M2_3Flux
759- 769 E11.6 mW/m2 M2_4Flux ?=- XMM Flux in 2.0-4.5keV for M2
771- 781 E11.6 mW/m2 eM24Flux ?=- Error on M2_4Flux
783- 793 E11.6 mW/m2 M2_5Flux ?=- XMM Flux in 4.5-12.0keV for M2
795- 805 E11.6 mW/m2 eM25Flux ?=- Error on M2_5Flux
807- 817 E11.6 mW/m2 M2_8Flux ?=- XMM Flux in 0.2-12.0keV for M2
819- 829 E11.6 mW/m2 eM28Flux ?=- Error on M2_8Flux
831- 842 E12.7 --- M2_HR1 ?=- XMM Hardness ratio 1 for M2 (2)
844- 854 E11.6 --- eM2HR1 ?=- Error on M2_HR1
856- 867 E12.7 --- M2_HR2 ?=- XMM Hardness ratio 2 for M2 (2)
869- 879 E11.6 --- eM2HR2 ?=- Error on M2_HR2
881- 892 E12.7 --- M2_HR3 ?=- XMM Hardness ratio 3 for M2 (2)
894- 904 E11.6 --- eM2HR3 ?=- Error on M2_HR3
906- 917 E12.7 --- M2_HR4 ?=- XMM Hardness ratio 4 for M2 (2)
919- 932 E14.9 --- eM2HR4 ?=- Error on M2_HR4
934- 951 E18.14 deg scRAdeg XMM weighted mean Right Ascension
953- 971 E19.15 deg scDEdeg XMM weighted mean Declination
973- 983 E11.6 arcsec e_scPos XMM Error of the weighted mean position
985- 996 E12.6 mW/m2 scep_1Flux XMM band 1 weighted mean flux
998-1008 E11.6 mW/m2 escep1Flux Error on scep_1Flux
1010-1020 E11.6 mW/m2 scep_2Flux XMM band 2 weighted mean flux
1022-1032 E11.6 mW/m2 escep2Flux Error on scep_2Flux
1034-1044 E11.6 mW/m2 scep_3Flux XMM band 3 weighted mean flux
1046-1056 E11.6 mW/m2 escep3Flux Error on scep_3Flux
1058-1068 E11.6 mW/m2 scep_4Flux XMM band 4 weighted mean flux
1070-1080 E11.6 mW/m2 escep4Flux Error on scep_4Flux
1082-1092 E11.6 mW/m2 scep_5Flux XMM band 5 weighted mean flux
1094-1104 E11.6 mW/m2 escep5Flux Error on scep_5Flux
1106-1116 E11.6 mW/m2 scep_8Flux XMM band 8 weighted mean flux
1118-1128 E11.6 mW/m2 escep8Flux Error on scep_8Flux
1130-1140 E11.6 mW/m2 scep_9Flux XMM band 9 weighted mean flux
1142-1152 E11.6 mW/m2 escep9Flux Error on scep_9Flux
1154-1165 E12.7 --- scHR1 ?=- XMM weighted mean hardness ratio 1 (2)
1167-1180 E14.9 --- e_scHR1 ?=- Error on scHR1
1182-1193 E12.7 --- scHR2 ?=- XMM weighted mean hardness ratio 2 (2)
1195-1205 E11.6 --- e_scHR2 ?=- Error on scHR2
1207-1218 E12.7 --- scHR3 ?=- XMM weighted mean hardness ratio 3 (2)
1220-1230 E11.6 --- e_scHR3 ?=- Error on scHR3
1232-1243 E12.7 --- scHR4 ?=- XMM weighted mean hardness ratio 4 (2)
1245-1255 E11.6 --- e_scHR4 ?=- Error on scHR4
1257-1269 E13.9 --- scdetML XMM maximum of the likelihoods of all
detections of this source
1271-1282 E12.7 --- scextML XMM average of the extent likelihoods of
all detections of this source
1284-1294 E11.6 --- scCst ?=- XMM minimum value of the EPIC
probabilities in each detection
1296 A1 --- scV [FT] XMM VAR_FLAG of the most variable
detection of this source
1298 I1 --- scS [0/4] XMM flag taken to be the worst flag
of all detections of this source
1300-1301 I2 --- Nd XMM number of detections of the unique
source
1303 I1 --- f1 [1/3] Release source added (4)
1305 I1 --- fm [0/1] Multiplicity flag (5)
1307-1324 E18.13 --- jproba_id XMatch probability
1326-1343 E18.13 arcsec jd_arcsec Angular distance between XMM and SDSS
source
1345-1362 E18.13 arcsec jd_sigma Sigma distance between XMM and SDSS source
1364-1381 E18.13 --- jrho_umag Estimated cumulative local density of
SDSS sources in u
1383-1400 E18.13 --- jrho_gmag Estimated cumulative local density of
SDSS sources in g
1402-1419 E18.13 --- jrho_rmag Estimated cumulative local density of
SDSS sources in r
1421-1438 E18.13 --- jrho_imag Estimated cumulative local density of
SDSS sources in i
1440-1457 E18.13 --- jrho_zmag Estimated cumulative local density of
SDSS sources in z
1459-1476 E18.13 --- jlr_umag Likelihood ratio in u band
1478-1495 E18.13 --- jlr_gmag Likelihood ratio in g band
1497-1514 E18.13 --- jlr_rmag Likelihood ratio in r band
1516-1533 E18.13 --- jlr_imag Likelihood ratio in i band
1535-1552 E18.13 --- jlr_zmag Likelihood ratio in z band
1554-1571 E18.13 --- jrel_umag Reliability in u band
1573-1590 E18.13 --- jrel_gmag Reliability in g band
1592-1609 E18.13 --- jrel_rmag Reliability in r band
1611-1628 E18.13 --- jrel_imag Reliability in i band
1630-1647 E18.13 --- jrel_zmag Reliability in z band
--------------------------SDSS data---------------------------------------------
1649-1666 A18 --- SDSS SDSS unique object identifier
1668-1685 E18.13 deg RASdeg SDSS Right Ascension
1687-1705 E19.14 deg DESdeg SDSS Declination
1707-1717 E11.6 arcsec e_RASdeg SDSS mean Error on the Right Ascension
1719-1729 E11.6 arcsec e_DESdeg SDSS mean Error on the Declination
1731-1742 E12.7 --- ccPos SDSS correlation between position Errors
1744-1755 E12.7 mag umag ?=-9.99900E+03 SDSS Model magnitude in
u filter
1757-1768 E12.7 mag e_umag ?=-9.99900E+03 Mean Error on umag
1770-1781 E12.7 mag gmag ?=-9.99900E+03 SDSS Model magnitude in
g filter
1783-1794 E12.7 mag e_gmag ?=-9.99900E+03 Mean Error on gmag
1796-1807 E12.7 mag rmag ?=-9.99900E+03 SDSS Model magnitude in
r filter
1809-1820 E12.7 mag e_rmag ?=-9.99900E+03 Mean Error on rmag
1822-1833 E12.7 mag imag ?=-9.99900E+03 SDSS Model magnitude in
i filter
1835-1846 E12.7 mag e_imag ?=-9.99900E+03 Mean Error on imag
1848-1859 E12.7 mag zmag ?=-9.99900E+03 SDSS Model magnitude in
z filter
1861-1872 E12.7 mag e_zmag ?=-9.99900E+03 Mean Error on zmag
1874 I1 --- Class SDSS class parameter (3)
1876 I1 --- spClass [0/6]? SDSS spectral class parameter (6)
1878-1889 E12.7 --- zsp ?=- SDSS spectral redshift
1891-1901 E11.6 --- e_zsp ?=- Error on zsp
1903-1905 A3 --- spType SDSS Stellar Type Classification (UW)
1907-1909 A3 --- spTypea SDSS Stellar Type Classification (SSPP)
1911-1913 A3 --- SType SEGUE or SDSS target type abbrev
1915 A1 --- good_qual [FT] No SDSS flag set, all mags < 22.2
1917 A1 --- Sat [FT] Object contains one or more saturated
pixels (SATURATED) (7)
1919 A1 --- Blend [FT] Object had multiple peaks detected
within it (BLEND) (7)
1921 A1 --- PSFFlux [FT] Greater than 20% of the PSF flux is
from interpolated pixels
(PSFFLUXINTERP) (7)
1923 A1 --- Deblend [FT] A MOVED object that the deblender
treated as moving (DEBLENDEDASMOVING)(7)
1925 A1 --- Interp [FT] Object center is close to at least
one interpolated pixel (INTERP_CENTER)(7)
1927 A1 --- Edge [FT] Object is too close to edge of
frame (EDGE) (7)
1929 A1 --- Satur [FT] Object center is close to at least
one saturated pixel (SATUR_CENTER) (7)
1931-1942 E12.7 --- ha_ct ?=- SDSS Hα (6565) line continuum
1944-1955 E12.7 0.1nm ha_wv ?=- SDSS Hα (6565) line center inlab
frame
1957-1968 E12.7 0.1nm ehawv ?=- Error on ha_wv
1970-1981 E12.7 0.1nm ha_sg ?=- SDSS σ of fitted gaussian on
Hα (6565) line
1983-1994 E12.7 0.1nm ehasg ?=- Error on ha_sg
1996-2008 E13.7 0.1nm ha_ew ?=- SDSS Hα (6565) line equivalent
width
2010-2021 E12.6 0.1nm ehaew ?=- Error on ha_ew
2023-2035 E13.7 --- ha_z ?=- SDSS redshift of line Hα (6565)
2037-2049 E13.7 --- ha_h ?=- SDSS height of Hα (6565) line
gaussian
2051-2062 E12.7 --- ehah ?=- Error on ha_h
2064-2075 E12.7 --- hb_ct ?=- SDSS Hβ (4863) line continuum
2077-2088 E12.7 0.1nm hb_wv ?=- SDSS Hβ (4863) line center inlab
frame
2090-2101 E12.7 0.1nm ehbwv ?=- Error on hb_wv
2103-2114 E12.7 0.1nm hb_sg ?=- SDSS σ of fitted gaussian on
Hβ (4863) line
2116-2127 E12.7 0.1nm ehbsg ?=- Error on hb_sg
2129-2141 E13.8 0.1nm hb_ew ?=- SDSS Hβ (4863) line equivalent
width
2143-2154 E12.7 0.1nm ehbew ?=- Error on hb_ew
2156-2168 E13.8 --- hb_z ?=- SDSS redshift of line Hβ (4863)
2170-2182 E13.8 --- hb_h ?=- SDSS height of Hβ (4863) line
gaussian
2184-2195 E12.7 --- ehbh ?=- Error on hb_h
2197-2208 E12.7 --- n2_ct ?=- SDSS NII (6585) line continuum
2210-2221 E12.7 0.1nm n2_wv ?=- SDSS NII (6585) line center
inlab frame
2223-2234 E12.7 0.1nm en2wv ?=- Error on n2_wv
2236-2247 E12.7 0.1nm n2_sg ?=- SDSS σ of fitted gaussian on
NII (6585) line
2249-2260 E12.7 0.1nm en2sg ?=- Error on n2_sg
2262-2274 E13.8 0.1nm n2_ew ?=- SDSS NII (6585) line equivalent width
2276-2287 E12.7 0.1nm en2ew ?=- Error on n2_ew
2289-2301 E13.8 --- n2_z ?=- SDSS redshift of line NII (6585)
2303-2315 E13.8 --- n2_h ?=- SDSS height of NII (6585) line
gaussian
2317-2328 E12.7 --- en2h ?=- Error on n2_h
2330-2342 E13.8 --- o3l_ct ?=- SDSS OIII (4960) line continuum
2344-2355 E12.7 0.1nm o3l_wv ?=- SDSS OIII (4960) line center inlab
frame
2357-2368 E12.7 0.1nm eo3lwv ?=- Error on o3l_wv
2370-2381 E12.7 0.1nm o3l_sg ?=- SDSS σ of fitted gaussian on
OIII (4960) line
2383-2394 E12.7 0.1nm eo3lsg ?=- Error on o3l_sg
2396-2408 E13.8 0.1nm o3l_ew ?=- SDSS OIII (4960) line equivalent
width
2410-2421 E12.7 0.1nm eo3lew ?=- Error on o3l_ew
2423-2435 E13.8 --- o3l_z ?=- SDSS redshift of line o3l
2437-2449 E13.8 --- o3l_h ?=- SDSS height of OIII (4960)
2451-2462 E12.7 --- eo3lh ?=- Error on o3l_h
2464-2475 E12.7 --- o3h_ct ?=- SDSS OIII (5008) line continuum
2477-2488 E12.7 0.1nm o3h_wv ?=- SDSS OIII (5008) line center inlab
frame
2490-2501 E12.7 0.1nm eo3hwv ?=- Error on o3h line center
2503-2514 E12.7 0.1nm o3h_sg ?=- SDSS σ of fitted gaussian on
OIII (5008) line
2516-2527 E12.7 0.1nm eo3hsg ?=- Error on o3h_sg
2529-2541 E13.8 0.1nm o3h_ew ?=- SDSS OIII (5008) line equivalent
width
2543-2554 E12.7 0.1nm eo3hew ?=- Error on o3h_ew
2556-2568 E13.8 --- o3h_z ?=- SDSS redshift of line o3h
2570-2582 E13.8 --- o3h_h ?=- SDSS height of OIII (5008) line
gaussian
2584-2595 E12.7 --- eo3hh ?=- Error on o3h_h
2597-2608 E12.7 --- o2l_ct ?=- SDSS OII (3727) line continuum
2610-2621 E12.7 0.1nm o2l_wv ?=- SDSS OII (3727) line center inlab
frame
2623-2634 E12.7 0.1nm eo2lwv ?=- Error on o2l_wv
2636-2647 E12.7 0.1nm o2l_sg ?=- SDSS σ of fitted gaussian on
OII (3727) line
2649-2660 E12.7 0.1nm eo2lsg ?=- Error on o2l_sg
2662-2674 E13.8 0.1nm o2l_ew ?=- SDSS OII (3727) line equivalent
width
2676-2687 E12.7 0.1nm eo2lew ?=- Error on o2l_ew
2689-2701 E13.8 --- o2l_z ?=- SDSS redshift of line o2l
2703-2715 E13.8 --- o2l_h ?=- SDSS height of OII (3727) line
gaussian
2717-2728 E12.7 --- eo2lh ?=- Error on o2l_h
2730-2741 E12.7 --- o2h_ct ?=- SDSS o2h line continuum
2743-2754 E12.7 0.1nm o2h_wv ?=- SDSS OII (3730) line center inlab
frame
2756-2767 E12.7 0.1nm eo2hwv ?=- Error on o2h_wv
2769-2780 E12.7 0.1nm o2h_sg ?=- SDSS σ of fitted gaussian on
OII (3730) line
2782-2793 E12.7 0.1nm eo2hsg ?=- Error on o2h_sg
2795-2807 E13.8 0.1nm o2h_ew ?=- SDSS OII (3730) line equivalent
width
2809-2820 E12.7 0.1nm eo2hew ?=- Error on o2h_ew
2822-2833 E12.7 --- o2h_z ?=- SDSS redshift of line o2h
2835-2847 E13.8 --- o2h_h ?=- SDSS height of OII (3730) line
gaussian
2849-2860 E12.7 --- eo2hh ?=- Error on o2h_h
2862-2874 E13.8 --- o1_ct ?=- SDSS OI (6302) line continuum
2876-2887 E12.7 0.1nm o1_wv ?=- SDSS OI (6302) line center inlab frame
2889-2900 E12.7 0.1nm eo1wv ?=- Error on o1_wv
2902-2913 E12.7 0.1nm o1_sg ?=- SDSS σ of fitted gaussian on
OI (6302) line
2915-2926 E12.7 0.1nm eo1sg ?=- Error on o1_sg
2928-2940 E13.8 0.1nm o1_ew ?=- SDSS OI (6302) line equivalent width
2942-2953 E12.7 0.1nm eo1ew ?=- Error on o1_ew
2955-2967 E13.8 --- o1_z ?=- SDSS redshift of line o1
2969-2981 E13.8 --- o1_h ?=- SDSS height of OI (6302) line gaussian
2983-2994 E12.7 --- eo1h ?=- Error on o1_h
2996-3008 E13.8 --- m2_ct ?=- SDSS MgII (2799) line continuum
3010-3021 E12.7 0.1nm m2_wv ?=- SDSS MgII (2799) line center
inlab frame
3023-3034 E12.7 0.1nm em2wv ?=- Error on m2_wv
3036-3047 E12.7 0.1nm m2_sg ?=- SDSS σ of fitted gaussian on
MgII (2799) line
3049-3060 E12.7 0.1nm em2sg ?=- Error on m2_sg
3062-3074 E13.8 0.1nm m2_ew ?=- SDSS MgII (2799) line equivalent width
3076-3087 E12.7 0.1nm em2ew ?=- Error on m2_ew
3089-3100 E12.7 --- m2_z ?=- SDSS redshift of line MgII (2799)
3102-3114 E13.8 --- m2_h ?=- SDSS height of MgII (2799) line
gaussian
3116-3127 E12.7 --- em2h ?=- Error on m2_h
3129-3140 E12.7 --- c3_ct ?=- SDSS CIII (1909) line continuum
3142-3153 E12.7 0.1nm c3_wv ?=- SDSS CIII (1909) line center
inlab frame
3155-3166 E12.7 0.1nm ec3wv ?=- Error on c3_wv
3168-3179 E12.7 0.1nm c3_sg ?=- SDSS σ of fitted gaussian on
CIII (1909) line
3181-3192 E12.7 0.1nm ec3sg ?=- Error on c3_sg
3194-3206 E13.8 0.1nm c3_ew ?=- SDSS CIII (1909) line equivalent width
3208-3219 E12.7 0.1nm ec3ew ?=- Error on c3_ew
3221-3232 E12.7 --- c3_z ?=- SDSS redshift of line c3
3234-3246 E13.8 --- c3_h ?=- SDSS height of CIII (1909) line
gaussian
3248-3259 E12.7 --- ec3h ?=- Error on c3_h
3261-3272 E12.7 --- c4_ct ?=- SDSS CIV (1549) line continuum
3274-3285 E12.7 0.1nm c4_wv ?=- SDSS CIV (1549) line center
inlab frame
3287-3298 E12.7 0.1nm ec4wv ?=- Error on c4_wv
3300-3311 E12.7 0.1nm c4_sg ?=- SDSS σ of fitted gaussian on
CIV (1549) line
3313-3324 E12.7 0.1nm ec4sg ?=- Error on c4_sg
3326-3338 E13.8 0.1nm c4_ew ?=- SDSS CIV (1549) line equivalent width
3340-3351 E12.7 0.1nm ec4ew ?=- Error on c4_ew
3353-3364 E12.7 --- c4_z ?=- SDSS redshift of line c4
3366-3378 E13.8 --- c4_h ?=- SDSS height of CIV (1549)
line gaussian
3380-3391 E12.7 --- ec4h ?=- Error on c4_h
3393-3404 E12.7 --- la_ct ?=- SDSS Lyα (1216) line continuum
3406-3418 E13.8 0.1nm la_wv ?=- SDSS Lyα (1216) line center
inlab frame
3420-3431 E12.7 0.1nm elawv ?=- Error on la_wv
3433-3444 E12.7 0.1nm la_sg ?=- SDSS σ of fitted gaussian on
Lyα (1216) line
3446-3457 E12.7 0.1nm elasg ?=- Error on la_sg
3459-3471 E13.8 0.1nm la_ew ?=- SDSS Lyα (1216) line equivalent
width
3473-3484 E12.7 0.1nm elaew ?=- Error on la_ew
3486-3497 E12.7 --- la_z ?=- SDSS redshift of line la
3499-3511 E13.8 --- la_h ?=- SDSS height of Lyα (1216) line
gaussian
3513-3524 E12.7 --- elah ?=- Error on la_h
--------------------------------------------------------------------------------
Note (1): 2XMMi sumflag as follows:
0 = good
1 = source parameters may be affected
2 = possibly spurious
3 = located in a area where spurious detection may occur
4 = located in a area where spurious detection may occur
and possibly spurious
Note (2): 2XMMi hardness ratios defined as:
1 = bands 1 & 2
2 = bands 2 & 3
3 = bands 3 & 4
4 = bands 4 & 5
2XMMi Bands defined as:
1 = 0.2-0.5keV
2 = 0.5-1.0keV
3 = 1.0-2.0keV
4 = 2.0-4.5keV
5 = 4.5-12.0keV
8 = 0.2-12.0keV
9 = 0.5-4.5keV
Note (3): Type (class) from SDSS is numbered as follows:
0 = Unknown: Object type is not known
3 = Galaxy: An extended object composed of many stars and other matter
6 = Star: A a self-luminous gaseous celestial body
8 = Sky: Blank sky spectrogram (no objects in this arcsecond area)
Note (4): Flag (sc_chflag1) as follows:
1 = a 2XMM source with unchanged SC parameters
2 = a 2XMM source with changed SC parameters
3 = a new source
Note (5): Flag (sc_chflag2) as follows:
0 = depends on f1 (sc_chflag1):
* if f1=1, a unique source present in 2XMM remains unchanged
in 2XMMi when comprised only of the same detections as in 2XMM.
* if f1=2, one or more new detections in 2XMMi can, by virtue of
their spatial separation, simply associate with the group of
detections from a unique source in 2XMM.
* if f1=3, new detections in 2XMMi that do not associate with a
unique source in 2XMM form new unique sources in 2XMMi with
SRCID values ≥191871.
1 = with f1=2, Detections that formed a source in 2XMM have
been regrouped, that is, while a source in 2XMMi might map to
one in 2XMM (having the same source ID and IAU name) it may have
lost detections it had in 2XMM and it may have gained old
detections from a different 2XMM source or new detections.
Note (6): Spectral class as follows:
0 = Spectrum not classifiable (zConf<0.25)
1 = Spectrum of a star
2 = Spectrum of a galaxy
3 = Spectrum of a quasi-stellar object
4 = Spectrum of a high-redshift quasar (z>2.3), whose redshift is
confirmed by a Ly-alpha estimator
5 = Spectrum of blank sky
6 = Star dominated by molecular bands M or later
7 = Emission line galaxy (placeholder)
Note (7): SDSS flags
--------------------------------------------------------------------------------
Acknowledgements:
Francois-Xavier Pineau, francois-xavier.pineau(at)astro.unistra.fr
(End) Patricia Vannier [CDS] 17-Jan-2011