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INTIBISVHD - INTEGRAL IBIS Hard X-Ray Survey Above 100 keV Source Catalog |
HEASARC Archive |
Overview
This table contains results from an all-sky survey, performed by the Imager on-Board the INTEGRAL Satellite (IBIS) telescope on board the INTErnational Gamma-Ray Astrophysics Laboratory (INTEGRAL) observatory over 11 years of operation, using data acquired at energies above 100 keV. The catalog of detected sources includes 132 objects. The statistical sample detected on the time-averaged 100-150 keV map at a significance above 5 sigma contains 88 sources: 28 active galactic nuclei (AGNs), 38 low-mass X-ray binaries (LMXBs), 10 high-mass X-ray binaries (HMXBs) and 12 rotation-powered young X-ray pulsars. The catalog also includes 15 persistent sources, which were registered at a significance 4 sigma <= S/N < 5 sigma, where S/N is the signal-to-noise ratio, but at the same time were firmly detected (>= 12 sigma) in the lower 17-60 keV energy band. All registered sources are known X-ray emitters, which means that the catalog has 100% purity in this respect. Additionally, 29 catalogued sources were detected significantly in different time slices of the survey. In the reference paper presenting the results of this survey, the authors present a hardness ratio for Galactic and extragalactic sources, an LMXB longitudinal asymmetry, and a number-flux relation for non-blazar AGNs. At higher energies, in the 150-300 keV energy band, 25 sources have been detected with S/N >= 5 sigma, including seven AGNs, 13 LMXBs, three HMXBs and two rotation-powered pulsars. Among LMXBs and HMXBs, the authors identified 12 black hole candidates (BHCs) and four neutron star (NS) binaries.For this hard X-ray survey, the authors utilized all publicly available INTEGRAL data acquired by the IBIS telescope between 2002 December and 2014 January (INTEGRAL spacecraft revolutions 26 - 1377). The survey also contains private data from the M82 deep field (PI: Sazonov) and scanning observations of the Galactic Center (PI: Krivonos) and Puppis region (PI: Tsygankov). The survey sky coverage as a function of a 5-sigma limiting flux is shown in Fig. 2 of the reference paper. The peak sensitivity of the survey is about 2 mCrab (8 x 10-12 erg s-1 cm-2 in the 100-150 keV energy band). The survey covers ~10% of the sky down to a flux limit of 3.7 mCrab (1.5 x 10-11 erg s-1 cm-2) and 90% of the sky down to 25 mCrab (10-10 erg s-1 cm-2).
The catalog has been compiled from sources passed through detection conditions in the reference 100-150 keV energy band on time-average sky maps (Section 2.1 of the reference paper) and maps built over different time periods (Section 2.2 ibid.). For all 132 sources, the time-averaged fluxes are given, even for those sources which were not detected therein. For some variable sources and for sources which were only detected in certain time periods, the fluxes measured in the specified time intervals are also given. Thus, this catalog has 50 additional rows for such entries, giving it a total size of 182 rows.
Catalog Bibcode
2015MNRAS.448.3766KReferences
INTEGRAL 11-year hard X-ray survey above 100 keV.
Krivonos R., Tsygankov S., Lutovinov A., Revnivtsev M., Churazov E.,
Sunyaev R.
<Mon. Not. R. Astron. Soc., 448, 3766-3774 (2015)>
=2015MNRAS.448.3766K (SIMBAD/NED BibCode)
Provenance
This table was created by the HEASARC in November 2016 based on the electronic version of Table 2 from the reference paper which was obtained from the CDS (their catalog J/MNRAS/448/3766 file table2.dat).Parameters
Source_Number
A unique identification number for each hard X-ray source in the catalog in
order of increasing J2000.0 RA. Some sources can have multiple entries
corresponding to different time ranges, so that there are 50 more entries
(182) than there are unique sources (132).
Name
The hard X-ray source name. In accordance with the authors' previous hard
X-ray surveys (Krivonos et al. 2007, A&A, 475, 775; 2010, A&A, 519, A107;
2012, A&A, 545, A27), common names are given for sources whose nature was
known before their detection by INTEGRAL. Sources discovered by INTEGRAL, or
whose nature was established thanks to INTEGRAL observations, are named
'IGR'.
RA
The Right Ascension of the X-ray source in the selected equinox. This was
given in J2000.0 coordinates to a precision of 0.01 degrees in the original
table. The positional accuracy of sources detected by IBIS depends on the
source significance (Gros et al. 2003, A&A, 411, L179). The estimated 68%
confidence intervals for sources detected at 5 - 6, 10 and >20 sigma are 2.1,
1.5 and <0.8 arcminutes, respectively (Krivonos et al. 2007, A&A, 475, 775).
Dec
The Declination of the X-ray source in the selected equinox. This was given
in J2000.0 coordinates to a precision of 0.01 degrees in the original table.
The positional accuracy of sources detected by IBIS depends on the source
significance (Gros et al. 2003, A&A, 411, L179). The estimated 68% confidence
intervals for sources detected at 5 - 6, 10 and >20 sigma are 2.1, 1.5 and
<0.8 arcminutes, respectively (Krivonos et al. 2007, A&A, 475, 775).
LII
The Galactic Longitude of the X-ray source.
BII
The Galactic Latitude of the X-ray source.
Flux_Limit
This parameter is set to '<' if the quoted flux is the 2-sigma upper limit
rather than a detection.
Flux
The time-averaged source flux in the 100-150 keV energy band over the time
range specified by the integral_orbit_min and integral_orbit_max parameter
values. The flux for cases with S/N < 2 sigma (entries for which flux_limit =
'<') is shown as a 2-sigma upper limit. The flux is expressed in units of erg
cm-2 s-1.
Flux_Error
The 1-sigma uncertainty in the source flux in the 100-150 keV energy band,
expressed in units of erg cm-2 s-1.
SNR
The detection significance of the source in the 100-150 keV energy band. This
is given only for detections which do not exceed 10 sigma.
Source_Type
The general astrophysical type of the object, as follows:
LMXB = low- mass X-ray binary
HMXB = high-mass X-ray binary
AGN = active galactic nucleus
SNR = supernova remnant
PSR = isolated pulsar or PWN
SGR = soft gamma repeater
A question mark after the specified source type value indicates that the
specified type is not firmly determined and should be confirmed.
Ref_Codes
This parameters contains codes indicates relevant references. The key to
these codes is given below:
Value Bibcode Authors Reference if no bibcode 1 2004ATel..352....1E Eckert et al. 2 2004ATel..353....1M Markwardt, Swank, & Strohmayer 3 1999MNRAS.306..100R Reig & Roche 4 ................... Lewin 1976, IAUC, 2914, 3 5 1990IAUC.5139....1M Makino & GINGA Team 6 2005A&A...433.1163D Donato, Sambruna, & Gliozzi 7 1997IAUC.6538R...1P Piro et al. 8 2006A&A...446L..17B Bassa et al. 9 1985SSRv...40..287V van der Klis et al. 10 2011ATel.3146....1M Milisavljevic et al. 11 2011ApJ...735..104K Krimm et al. 12 2007ApJ...667.1111G Gelfand & Gaensler 13 1998IAUC.7008R...1T Smith 14 1989PASJ...41..617N Nakamura et al. 15 1986ApJ...308..199P Parmar et al. 16 1977ApJ...217L..23H Hoffman, Lewin, & Doty 17 2003ATel..176....1M Molkov et al. 18 2008A&A...484..783C Chaty et al. 19 2006ApJ...636..765B Bird et al. 20 2006A&A...449.1139M Masetti et al. 21 2011MNRAS.411..137H Hiemstra et al. 22 1995Natur.374..701B Bailyn et al. 23 2007ATel.1270....1B Burenin et al. 24 2011ApJ...731L...2K Kalamkar et al. 25 2009MNRAS.392L..11L Linares et al. 26 2009A&A...496..333F Falanga et al. 27 1979Natur.278..434S Samimi et al. 28 1991A&A...250..389O Oosterbroek et al. 29 2007A&A...467..529C Churazov et al. 30 2012ATel.4219....1D Degenaar, Altamirano, & Wijnands 31 2012ATel.4219....1D Degenaar, Altamirano, & Wijnands 32 1985IAUC.4111....0S Sztajno et al. 33 2003ATel..149....1K Kuulkers et al. 34 2004ATel..328....1L Lutovinov & Revnivtsev 35 2006ApJ...643..376C Capitanio et al. 36 1999IAUC.7247S...1C Cocchi et al. 37 1980ApJ...240L.121G Grindlay et al. 38 1971ApJ...169L..17L Lewin, Ricker, & McClintock 39 2003AstL...29..719L Lutovinov et al. 40 2010MNRAS.408..975M Malizia et al. 41 1997IAUC.6668R...1B Bazzano et al. 42 2009ApJ...701..811T Tomsick et al. 43 2002A&A...389L..43I in't Zand et al. 44 2004ATel..232....1B Bassani et al. 45 2004ATel..264....1T Torres et al. 46 1991A&A...247L..29S Syunyaev et al. 47 ................... in 't Zand et al. 1991, AdSpR, 11, 187 48 1999A&A...346L..45C Cocchi et al. 49 2012ATel.4381....1V Vovk et al. 50 1994ApJ...425..110P Pavlinsky, Grebenev, & Sunyaev 51 2003ATel..132....1R Revnivtsev et al. 52 2006ApJ...639..340K Kalemci et al. 53 2005ATel..467....1G Grebenev, Molkov, & Sunyaev 54 2008ATel.1445....1D Del Monte et al. 55 2008ATel.1651....1A Altamirano et al. 56 2006ATel..885....1S Soldi et al. 57 2007ApJ...657L.109P Paizis et al. 58 2007ApJ...655L..97R Rodriguez et al. 59 2011ATel.3556....1P Papitto et al. 60 2011ATel.3560....1F Ferrigno, Bozzo, & Belloni 61 1999ApJ...523L..45N Natalucci et al. 62 2005ATel..550....1M Morgan et al. 63 2014MNRAS.445.2424N Neustroev et al. 64 1991PAZh...17..126S Sunyaev et al. 65 ................... In't Zand et al. 1999, NuPhS, 69, 228 66 ................... Cocchi et al. 1999, ApL&C, 38, 133 67 1985A&A...153..106F Fleischman 68 1983PASJ...35..531M Murakami et al. 69 2013ATel.5474....1N Nakahira et al. 70 1999ApJ...514L..27U Ubertini et al. 71 2011MNRAS.411.2137G Gianni et al. 72 2012A&A...537L...7F Ferrigno et al. 73 2005ApJ...630L.157M Malizia et al. 74 2004AstL...30..534M Molkov et al. 75 ................... Terrier et al. 2008, AIPC, 1085, 312 76 2006ApJ...638..963K Kaaret et al. 77 2013ApJ...778..155R Reis et al. 78 2003IAUC.8088....4H Hannikainen, Rodriguez, & Pottschmidt 79 2010A&A...510A..61T Torrej'on et al. 80 2001A&A...373L..37G Greiner et al. 81 1995A&A...297..556H Herrero et al. 82 1996A&A...311L..25S Schmutz, Geballe, & Schild 83 2004ATel..229....1W Walter et al. 84 2004A&A...426L..41M Masetti et al.
INTEGRAL_Orbit_Min
The INTEGRAL orbital range minimum value during which the corresponding flux
has been measured. If this column is set to 26 and the corresponding
integral_orbit_max value is set to 1377, the corresponding flux has been
determined from the whole time span of the survey. INTEGRAL orbital
revolutions can be roughly converted into Modified Julian Date (MJD) using
the following empirical expression:
MJD = 55551.61223380 + (N - 1000.0)/0.33404581,
where N is the INTEGRAL spacecraft orbital revolution number.
INTEGRAL_Orbit_Max
The INTEGRAL orbital range maximum value during which the corresponding flux
has been measured. If this column is set to 1377 and the corresponding
integral_orbit_min value is set to 26, the corresponding flux has been
determined from the whole time span of the survey. INTEGRAL orbital
revolutions can be roughly converted into Modified Julian Date (MJD) using
the following empirical expression:
MJD = 55551.61223380 + (N - 1000.0)/0.33404581,
where N is the INTEGRAL spacecraft orbital revolution number.
Notes
Notes concerning the source, e.g., additional information on the source type,
alternative names and/or the likelihood of source confusion. Spatial
confusion with a nearby source XXX is indicated by 'C{XXX}", where XXX is a
name of the source that has been mostly detected at energies below 100 keV.
The measured flux of sources which are spatially confused should be regarded
with caution.
Class
The HEASARC Browse object classification of the source, based on the value of
the source_type parameter.
Contact Person
Questions regarding the INTIBISVHD database table can be addressed to the HEASARC Help Desk.Page Author: Browse Software Development Team
Last Modified: Monday, 16-Sep-2024 17:29:17 EDT
- HEASARC Director: Dr. Andy Ptak
- NASA Official: Dr. Andy Ptak
- Web Curator: J.D. Myers
- Last Modified: 16-Sep-2024