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Cataloged Galaxies and Quasars Observed in the IRAS Survey,
Version 2 (1989)
IV. DESCRIPTION OF THE CATALOG ENTRIES
The sources appearing in the Extragalactic Catalog are a subset of those
listed in the Point Source Catalog. The Extragalactic Catalog is ordered by
right ascension. All positions in the Extragalactic Catalog refer to epoch
1950.0.
The entry for each source has a double page format. The left-hand page
contains the IRAS data, and the right-hand page the information on the
associated cataloged galaxies and quasars. The galaxy or quasar names can
appear in five separate columns, each containing entries from one or more
galaxy catalogs. Table III.A.1 details the assignments of the various galaxy
catalogs to the five columns. Details of the association procedures and the
optical positions used for the galaxies are given in Sec. III.
If a particular IRAS source associates with two or more objects in the same
catalog, or in catalogs sharing the same column, additional lines are used for
that source in the Extragalactic Catalog. The entries appear in blocks of ten
IRAS sources.
The IRAS information appearing in the Extragalactic Catalog is identical to
that in the Point Source Catalog, Version 2, except that the printed versions
differ in the selection of parameters. An additional parameter has been
included in the Extragalactic Catalog; namely, a far-infrared flux especially
suited to galaxies. An error in this parameter in Version 1 of the
Extragalactic Catalog has been corrected. Further detailed information on all
of the entries besides this one can be found in the Explanatory Supplement to
the IRAS Catalogs and Atlases (S.X). References to this information are given
below, where appropriate.
A. Point Source Data
The following specifics apply to the printed version of the IRAS Survey of
Cataloged Galaxies and Quasars. Details of the tape version, and the tape
format, can be found in Sec. IV.B, below.
A:1 IRAS Point Source Data (Left Hand Page of the Catalog)
These data are identical to those in the Point Source Catalog except for the
far-infrared flux parameter, FIR.
Name: NAME
The IRAS source name is derived from its position by combining the hours,
minutes, and tenths of minutes of right ascension, and the sign, degrees, and
minutes of the declination. The right ascension and declination have been
truncated. A letter `A', `B', `C', etc. is appended to names of sources so
close together that they would otherwise have had identical names.
Position: RAHR, RAMIN, RASEC, DECSGN, DECMIN, DECSEC
IRAS positions are given for the equinox 1950.0.
Galactic Latitude: GLAT
Galactic latitude bII rounded to the nearest degree.
Positional Uncertainties: UNCMAJ, UNCMIN, POSANG
The uncertainty is expressed as a 95% confidence uncertainty ellipse. The
semi-major (UNCMAJ) and semi-minor (UNCMIN) axes (arcsec) of the confidence
ellipse are given. The orientation of the ellipse on the sky, (POSANG), is
expressed in terms of the angle between the major axis of the ellipse and the
local equatorial meridian, expressed in degrees east of north. Further
information is available in S.V.D.9 and S.VII.C. The uncertainty is
overestimated for large uncertainties (S.VII.C.1.b).
Number of Sightings: NHCON
The number of hours-confirmed sightings of a source is given. (See Section
II.A of the present document, and S.V.D)
Flux Densities and Their Qualities: FNU, FQUAL
Flux densities in Janskys (10^-26 W m^-2 Hz^-1) are given in the four bands,
each followed by a flag indicating the quality of the measurement. The flux
densities assume an underlying energy distribution f_nu proportional to nu^-1,
i.e. they have not been color-corrected. Color-corrections to other spectral
shapes must be made by consulting Table II.A.1 (S.VI.C.3). The quoted flux
densities are averages of all the hours-confirmed sightings as obtained by the
prescription in S.V.H.5. If no flux quality flag is given, the flux density is
a high quality one. A colon (:) denotes a moderate quality flux density, and an
`L' denotes an upper limit. An `S' indicates a saturated flux density. An upper
limit is usually a 3-sigma value but may be much more than this if the flux was
deleted by the high-source-density processor (S.V.H.6). The assignment of flux
qualities is described in S.V.H.5.
Combined 60 and 100 um Flux and Quality: FIR, FQFIR
This quantity is a convenient representation of the far-infrared flux of a
galaxy, as measured by IRAS, at least for thermal infrared sources; it is
effectively the total flux between 42.5 and 122.5 um. It is in units of W m^-2.
A full description of this parameter is given in Appendix B; numerically the
quantity tabulated is given by:
Log(FIR) = Log(1.26 x (F (60) + F (100)));
where F(60) and F(100) are the fluxes measured for the source, in W m^-2, in
the 60 and 100 um bands respectively. These fluxes can be recovered from the
nominal flux densities listed in the IRAS catalogs using the formulae:
F(60) = 2.58 x 10^-14 x f_nu(60)
F(100) = 1.00 x 10^-14 x f_nu(100)
where f_nu(60) and f_nu(100) are the flux densities at the two wavelengths,
measured in Janskys.
The flux quality assigned to FIR is carried over from the flux qualities of
the 60 and 100 um flux densities. FIR is of course subject to the same
uncertainties in the calibration as the individual flux densities.
Flux Uncertainties: RELUNC(4)
Each high- or moderate-quality flux density measurement has an associated
uncertainty expressed as a 1-sigma value in units of delta(f_nu)/f_nu.
Uncertainties are discussed in S.V.H.5. These flux qualities have been encoded
according to the following convention (where the uncertainty was first rounded
to two significant figures):
_______________________________________________________
| Symbol Uncertainty Range |
|_______________________________________________________|
| A 0.00 <= delta(f_nu)/f_nu < 0.04 |
| B 0.04 <= delta(f_nu)/f_nu < 0.08 |
| C 0.08 <= delta(f_nu)/f_nu < 0.12 |
| D 0.12 <= delta(f_nu)/f_nu < 0.16 |
| E 0.16 <= delta(f_nu)/f_nu < 0.20 |
| F delta(f_nu)/f_nu >=0.20 |
|_______________________________________________________|
Correlation Coefficient: CC(4)
The correlation coefficient, one per band, ranges from 87 to 100%. It is
derived from a least squares fit of the data for a source to the point source
template. The coefficient is described fully in S.V.C.4. In the Extragalactic
Catalog the coefficient is encoded as alphabetic characters with A=100%, B=99%
etc., to M = 87%, one for each band. The value quoted is the highest
correlation coefficient seen for that source on any sighting.
Cirrus Indicators: CIRR1, CIRR2
Over a large range of galactic latitudes the infrared sky at 100 um is
characterized by emission from interstellar dust on a wide range of angular
scales. As described in Sec. II.F, this so-called "infrared cirrus" can
seriously hamper efforts to extract point source detections from the data. To
aid the user in interpreting the quoted 100 um measurements, three
cirrus-related quantities have been established (S.V.H.4 and S.VII.H). Two of
these are given in the Extragalactic Catalog.
CIRR1 gives the number of 100 um-only hours-confirmed sources located within
a +/- 0.5 deg box in ecliptic coordinates centered on the source. The sources
included in this count are the weeks-confirmed sources prior to
high-source-density processing, if applicable (see Sec. II.E), plus those
sources hours-confirmed but not weeks-confirmed. Values of greater than 3 may
indicate contamination by cirrus with structure on the point-source size scale.
CIRR2 gives a cirrus indication on a larger scale than CIRR1 and compares a
"cirrus flux" with the source flux at 100 um (see S.V.H.4 for derivation of
CIRR2). Values of CIRR2 larger than 4 or 5 indicate the presence of
considerable structure in the 100 um emission on a 0.5 deg scale. A value of 0
indicates that no 100 um extended emission data were available for the source
in question.
Confusion Status Flags: CONFUSE, PNEARH, PNEARW, HSDFLAG
A great deal of care went into trying to untangle instances of confusion
between neighboring sources (S.V.D.2, D.3) (see Sec. II.E). In parts of the sky
where the source density is low, confusion processing was often able to
separate sources that are quite close together. The CONFUSE flag is set if two
or more sightings of the source in a given band had confusion status bits set,
indicating confusion in the seconds-confirmation or band-merging processes.
This flag is hex encoded by band (see key in Table IV.A.1).
Other indicators of possible confusion are given by PNEARH and PNEARW which
are, respectively, the number of hours- and weeks-confirmed point sources
located within a 4.5 arcmin cross-scan and 6 arcmin in-scan window centered on
the source. Values larger than 9 are given as 9 (S.VII.H.1.a, S.X.B).
Regions of high source density received special processing to improve the
reliability of the quoted sources (see Sec. II.E and S.V.H.6). The regions are
band dependent. If a particular band of a given source went through high source
density processing, then the appropriate bit in HSDFLAG. HSDFLAG is hex encoded
by band (see Table IV.A.1).
Table IV.A.1
Key to Hex Encoded Flags [1]
_________________________________________
| Value of Flag 12 25 60 100 |
|_________________________________________|
| |
| 0 0 0 0 0 |
| 1 1 0 0 0 |
| 2 0 1 0 0 |
| 3 1 1 0 0 |
| 4 0 0 1 0 |
| 5 1 0 1 0 |
| 6 0 1 1 0 |
| 7 1 1 1 0 |
| 8 0 0 0 1 |
| 9 1 0 0 1 |
| A 0 1 0 1 |
| B 1 1 0 1 |
| C 0 0 1 1 |
| D 1 0 1 1 |
| E 0 1 1 1 |
| F 1 1 1 1 |
|_________________________________________|
[1] The table indicates whether the bit is set (1) or not (0) for each
band.
Small Extended Source Flags: SES1(4), SES2(1)
SES1 is the number of seconds-confirmed small-scale structure detections in
a given band found within a window centered on the source. The size of the
window is 6 arcsec in-scan x 4.5 arcsec cross-scan. As described in S.VII.H.1,
values of SES1 greater than 1 should caution the reader that significant
extended structure may exist in the region and that the source in question may
be a point-source-like piece of a complex field.
SES2 is the number of weeks-confirmed small-scale structure sources in a
given band located within a 6 arcsec in-scan x 4.5 arcsec cross-scan window
centered on the source. Values greater than zero mean that the point source
flux measurement should be treated with caution as the source in question may,
in fact, be extended, and the flux density quoted in the IRAS Small Scale
Structure Catalog may provide a better representation of the source. SES2 is
hex encoded by band (see Table IV.A.1).
Small Scale Structure Associations: NSSS, SSSNAM, DISSSS
The Small Scale Structure associations were established by searching the
IRAS Small Scale Structure Catalog (1988) near the positions of IRAS point
sources rather than near galaxies. The associations were made in much the same
way as was used for associations in other astronomical catalogs with entries in
the Point Source Catalog (details in S. V.H.9). NSSS is the number of
small-scale structure sources that associate with the point source. In the
Extragalactic Catalog N is never larger than one. SSSNAM is the name of the
associated source as in the IRAS Small Scale Structure Catalog, and DISSSS is
the separation in arcseconds between point source and small-scale structure
source.
For many galaxies, the SES2 flag is set but no extended-source associations
are given. This situation arises primarily because the SES2 flag is based on
weeks-confirmed small-scale structure sources (which numbered about 40,000),
whereas associations were established with the Small Scale Structure Catalog
which contains only 16,740 entries. The presence of a SES2 flag is sufficient
cause for suspecting that the galaxy may have been resolved by IRAS, though the
extended detection did not make it through the stringent final catalog
selection process. (See the Explanatory Supplement to the Small Scale Structure
Catalog 1988 for more detail.) Another reason that may have led to the
situation described above is that SES2 flags were based on a slightly larger
search window than associations with the Small Scale Structure Catalog.
Other Associations: NONGAL, IDNGAL, DSNGAL
If an IRAS point source associates with an object from any of the various
non-galaxy catalogs listed in Table S.V.H.1, that fact is indicated here.
NONGAL is the number of associations made for the source among these non-galaxy
catalogs and IDNGAL is a code which indicates which catalog the nearest of
these associations is from (see Table IV.A.2). DSNGAL is the separation of this
object from the point source (arcsec). There is a priority scheme in selecting
the nearest association: if an association exists from one of the first nine
catalogs in Table IV.A.2 it takes priority over the remainder. Similarly
associations from catalogs A-E take precedence over F-J, and catalogs F-I are
preferred over J. Although this field is included primarily to warn of possible
confusion of the galaxy with a star or nebula, the catalog of extragalactic
radio sources, J, is included on the lowest priority, since it provides a
useful piece of additional information.
Table IV.A.2
Key to Identifications from Non-Galaxy Catalogs [1]
______________________________________________________________________
Code Catalog
______________________________________________________________________
1 Smithsonian Astrophysical Observatory Star Catalog, 1966
2 Bright Star Catalogue - 4th Edition, Hoffleit and Jascheck 1982
3 Dearborn Observatory Catalogue of faint Red Stars, Lee et al.
1943, 1944, 1947
4 General Catalogue of Variable Stars, Kukarkin et al. 1970, 1971
5 Early Type Stars with Emission Lines, Wackerling 1970
6 New Catalog of Suspected Variable Stars, Kukarkin et al. 1981
7 General Catalogue of Cool Carbon Stars
8 Catalog of Nearby Stars, Gliese 1969
9 General Catalog of S Stars, Stephenson 1973, 1976
A Strasbourg Planetary Nebulae
B Parkes HII Region Survey, Haynes et al. 1979
C Bonn HII Region Survey, Altenhoff et al. 1979
D Catalog of CO Radial Velocities Toward Galactic HII Regions,
Blitz et al. 1982
E Catalogue of Dark Nebulae, Lynds 1962
Comparison Catalog of HII Regions, Marsalkova 1974
Catalog of Star Clusters and Associations, Alter et al. 1970
Catalog of Bright Diffuse Nebulae, Cederblad 1946
Untersuchungen Uber Reflexionsnebel am Palomar Sky Survey,
Dorschner and Gurtler 1964
A Study of Reflection Nebulae, van den Bergh 1966b
Catalog of Southern Stars Embedded in Nebulosity,
van den Bergh and Herbst 1975
F Revised Air Force Geophysical Laboratory Four-Color Survey,
Price and Murdock 1983
G Two Micron Sky Survey, Neugebauer and Leighton 1969
H Equatorial Infrared Catalogue, Sweeney et al. 1978
I Two Micron Sky Survey with Improved Positions,
Kleinmann and Joyce 1984
J Catalog of Extragalactic Radio Sources Having Flux Densities
Greater than 1 Jy at 5 Ghz, Kuhr et al. 1981
______________________________________________________________________
[1] One extragalactic catalog, J, is included.
A.2 Extragalactic Associations
Name: NAME
Repeat of the IRAS name.
Primary Galaxy Catalog Names: PGCNAM
This column lists the name of the galaxy from four of the five main galaxy
catalogs; the UGC (U), the UGC Appendix (UA), the CGCG (Z), and the ESO (E),
with which the IRAS source is associated. A UGC galaxy with the suffix `A' is
from the addendum to the UGC. MCG associations appear elsewhere. As described
in Sec. III.A above, these four catalogs were fully combined prior to making
the associations (see III.C and D), so there is at most one entry for each IRAS
source in this column unless the IRAS source is associated with more than one
galaxy. Details of the catalogs and nomenclature used in various regions of the
sky are given in Sec. III.C and in Table III.C.1. Positions for the galaxies
have been taken from the same catalog as the name, except in the case of the
Dressel and Condon (1976) positions for UGC galaxies, and except for a few
errors discovered in the UGC coordinates (see Sec. III.F).
If more than one Primary Catalog Galaxy associates with a particular IRAS
source, the one matching the IRAS source more closely in position is listed
first. The next galaxy appears on the following line.
Number of Appearances of the Galaxy: NPGC
An entry in this column indicates that the galaxy named in the preceding
column appears more than once in the Extragalactic Catalog. The value of NPGC
is the number of times that the galaxy name appears, i.e., the number of IRAS
sources with which the galaxy was associated. Galaxies appearing more than
twice in the Extragalactic Catalog are listed in Table III.A.2.
Major Axis Diameter: DIAMP
The major axis diameter of the galaxy listed in the Primary Galaxy Catalog
column (arcsec). For catalogs that list both blue and red sizes, the blue one
has been adopted. The size quoted here is that used to decide whether the
galaxy should be treated as a large or small galaxy for the association
procedure (see Sec. III.B). For a large galaxy (> 90 arcsec in semi-major
axis), the association search radius used was one-half of the major axis given
here. If no size was available in the catalog the number zero appears in this
column.
Separation: DISPGC
Distance of the galaxy from the IRAS Source (arcsec).
Position Angle: PAPGC
Position angle of the separation vector from the IRAS source to the optical
galaxy, in degrees east of north.
Position and Magnitude Flags: POSFLG, MAGFLG
POSFLG is a flag indicating any special circumstances concerning the optical
position used for the galaxy. MAGFLG is a flag that refers to the magnitude
quoted. Explanations of both flags are given in Sec. IX. These flags only
indicate discrepancies that came to light during the merger process; they are
not intended to indicate all discrepancies that may be present in the galaxy
catalogs.
Magnitude: MAGPGC
The magnitude is carried over from the galaxy catalog in question. Most
often it is a photographic blue magnitude derived ultimately from the CGCG.
Classification Field: CLASSN
In this column the first seven characters of the classification field of the
catalog in question have been reproduced. There is no guarantee that these
types are in any way homogeneous, and they are often truncated.
MCG Galaxies: MCGNAM
This column contains MCG identifications for the Primary Catalog Galaxy, and
also MCG galaxies that have not been identified with the Primary Catalog galaxy
for which an independent association has been made with the IRAS source (see
Sec. III.D). MCG identifications for Primary Catalog galaxies may be identified
by the absence of any diameter or separation information for the MCG galaxy.
If a single UGC, UGCA or ESO galaxy is identified with two or more MCG
galaxies, this is usually indicated with a `+' symbol. The second and
subsequent MCG galaxies will not appear by name in the Extragalactic Catalog.
If there is both an identification with a Primary Catalog galaxy and an
independent association with another MCG galaxy for a particular source, the
identification will appear first, and the independent association will be on
the following line. Additional MCG independent associations will appear on
subsequent lines, in order of proximity to the IRAS source.
Number of Appearances of the MCG name: NMCG
This column lists the number of times that a given MCG name appears in the
Extragalactic Catalog. Unlike the situation for the Primary Galaxy Catalog
entries, NMCG does not necessarily indicate the number of IRAS sources that the
MCG galaxy is associated with, because there exist cases in which two or more
components of a galaxy or galaxy pair have the same MCG name.
Major Axis Diameter: DIAMM
Outer major axis diameter of the MCG galaxy, if the MCG name is not just an
identification for a Primary Catalog galaxy (arcsec). If no size was available
for the galaxy, the number zero is entered in this column. For large galaxies
(> 180 arcsec in semi-major axis) the association search radius used was
one-half of the major axis given here.
Separation: DISMCG
Separation of the MCG galaxy from the IRAS source (arcsec), if that MGC
galaxy has been associated independently with the IRAS source.
Position Angle: PAMGC
Position angle of the radius vector from the IRAS source to the MCG galaxy,
in degrees east from north, if that MCG galaxy has been associated
independently with the IRAS source.
NGC/IC Name: NGCIC
NGC or IC identification for the Primary Catalog galaxy, if available, or
for the MCG galaxy. If size and separation information exists for the MCG
galaxy, then the NGC/IC identification belongs to it; otherwise, the NGC/IC
identification belongs to the Primary Catalog galaxy. No identifications are
available for CGCG galaxies. Only six characters of the identification field
have been copied into the Extragalactic Catalog. The symbols `+', `/' or `='
indicate additional NGC/IC names, which will not appear by name in the
Extragalactic Catalog. A `?' or `:' denotes an uncertain identification. These
symbols have the same meaning as they do in the optical catalog in question.
Note that NGC or IC galaxies that are IRAS sources but that do not appear in
the optical catalogs (Table II.A.1), if any exist, will not appear here.
Secondary Catalogs: AMDNAM
This column contains the names of galaxies from the Markarian lists (MKN),
the Atlas of Peculiar Galaxies (ARP) and the Catalogue of Dwarf Galaxies (DDO).
No attempt has been made to identify objects appearing in this column with each
other or with Primary Catalog and MCG galaxies.
Number of Appearances of the Name: NAMD
NAMD indicates the number of appearances of the ARP, MKN or DDO name in the
Extragalactic Catalog.
Separation: DISAMD
Separation of the ARP, MKN or DDO galaxy from the IRAS source (arcsec).
Position Angle: PAAMD
The position angle of the radius vector from the IRAS source to the galaxy,
in degrees east from north.
Secondary Catalogs: VVZNAM
This column contains the names of galaxies and quasars from the compilation
of Veron-Cetty and Veron (nomenclature from the original listings combined by
Veron-Cetty and Veron), the Atlas of Interacting Galaxies (V) and the eight
lists of F. Zwicky (1ZW through 8ZW). As for the previous secondary column, no
attempt has been made to internally identify objects in this column amongst
themselves, or with objects in any of the other galaxy-name columns.
Number of Appearances of the Name: NVVZ
NVVZ indicates the number of times that the galaxy name appears in the
Extragalactic Catalog.
Separation: DISVVZ
Separation of the galaxy from the IRAS source (arcsec).
Position Angle: PAVVZ
Position angle of the radius vector of the IRAS source from the galaxy, in
degrees east of north.
VCV Type or VV Flag: VCVFLG
This column is used to identify VCV entries because many entries from this
catalog are duplicated in one of the other secondary catalogs - most notably
the Markarian lists. The type of the galaxy from VCV has been used as this
identification flag. For VCV galaxies with no type, the letters "AN", for
"Active Nucleus", have been inserted to mark the entry.
This column also contains a number of flags for VV galaxies; the meaning of
these flags is explained in Sec. IX.
B. Tape Formats
In addition to the printed version of the Extragalactic Catalog, there is a
tape version presented in the FITS table format (Wells, Greisen, and Harten
1981; Greisen and Harten 1981; Grosbol et al. 1988 and Harten et al. 1988).
Galaxy association records are written in a separate FITS table keyed to the
IRAS data records. The two tables are written as two files on one tape.
The format of the tape is (a) in the first file: a FITS header for the IRAS
data, an extension header giving a complete description of the format of the
IRAS data, and the IRAS data; and (b) in the second file: FITS header for the
galaxy association data, the extension header for the association data, and the
association data. The FITS header for each file contains the date and version
number of the data on tape. Extension headers describe each column in the data
table. The information in the extension headers is given in a more
easily-readable format in Tables IV.B.1 and IV.B.2. which contain a brief
description of each variable on the tape, the logical type of each variable,
and its length in bytes. For a more complete description of variables, see
pages IV-1 through IV-9. Tables IV.B.3 and IV.B.4 give samples of the FITS
headers and extension headers for the two files on the tape.
There are two differences between the printed and tape versions of the
Extragalactic Catalog. One is that the FITS tape file containing the IRAS data
includes an additional parameter: NRECS. NRECS is the number of galaxy
association records which will be found keyed to that IRAS data record in the
galaxy associations tape file. As in the printed catalog, multiple galaxy
association records keyed to a single IRAS data record appear in the tape file
in order of increasing distance on the sky from the IRAS source. The second
difference is that the association data FITS tape file contains an additional
parameter, RECNO. RECNO is the sequential number of the IRAS data record to
which a particular association record refers.
Table IV.B.1. Format of IRAS Data for Extragalactic Catalog Tape
Start
Byte Name Description Units Format
1 NAME IRAS source name --- A11
12 RAHR Right Ascension 1950 Hours I2
15 RAMIN Right Ascension 1950 Minutes I2
18 RASEC Right Ascension 1950 Seconds F4.1
23 DECSGN Declination Sign +,- A1
24 DECDEG Declination 1950 Arc degrees I2
27 DECMIN Declination 1950 Arc minutes I2
30 DECSEC Declination 1950 Arc seconds I2
33 GLAT Galactic latitude 1950 Arc degrees I3
37 UNCMAJ Uncertainty ellipse Arc seconds I3
semi-major axis
40 UNCMIN Uncertainty ellipse Arc seconds I3
semi-minor axis
44 POSANG Uncertainty ellipse Degrees I3
position angle (East of North)
47 NHCON Number of times observed --- I2
49 FNU_12 12 um flux density Janskys F6.2
averaged, non color corrected (10E-26 W/m**2/Hz)
55 FQUAL_12 12 um flux quality where --- A1
(blank) = high quality
: = moderate quality
L = upper limit
56 FNU_25 25 um flux density Janskys F6.2
averaged, non color corrected (10E-26 W/m**2/Hz)
62 FQUAL_25 25 um flux quality where --- A1
(blank) = high quality
: = moderate quality
L = upper limit
63 FNU_60 60 um flux density Janskys F7.2
averaged, non color corrected (10E-26 W/m**2/Hz)
70 FQUAL_60 60 um flux quality where --- A1
(blank) = high quality
: = moderate quality
L = upper limit
71 FNU_100 100 um flux density Janskys F7.2
averaged, non color corrected (10E-26 W/m**2/Hz)
78 FQUAL_100 100 um flux quality where --- A1
(blank) = high quality
: = moderate quality
L = upper limit
79 FIR Log (FIR) far infrared flux W/m**2 F6.2
combined 60 & 100 um flux,
see Appendix B
85 FQFIR FIR flux quality where --- A1
(blank) = high quality
: = moderate quality
L = upper limit
86 RELUNC [1] Percent relative flux density --- 4A1
uncertainties, one value per band,
A - 0% < UNCS < 4%
B - 4 < UNCS < 8
C - 8 < UNCS < 12
D - 12 < UNCS < 16
E - 16 < UNCS < 20
F - UNCS > 20
Table IV.B.1. Format of IRAS Data for Extragalactic Catalog Tape
Start
Byte Name Description Units Format
91 CC [1] Point source correlation --- 4A1
coefficient, one value per band
A = 100%
B = 99
C = 98
.
.
M = 87
96 CIRR1 Cirrus indicator, number of --- I1
100 um only sources in window
97 CIRR2 Cirrus indicator, ratio of --- I1
cirrus flux to source flux
99 CONFUSE Confusion flag, hex encoded --- I1
see Table IV.A.1.
100 PNEARH Number hours-confirmed point --- I1
sources in window
PNEARH>9 = 9
101 PNEARW Number of weeks-confirmed --- I1
point sources in window
PNEARW>9 = 9
102 HSDFLG High source density flag, hex --- I1
encoded, see table IV.A.1.
104 SES1 [1] Number of seconds-confirmed small --- 4I1
extended sources in window,
one value per band
108 SES2 Number of weeks-confirmed small --- I1
extended sources in window,
hex encoded, see table IV.A.1.
109 NSSS Number of associations from --- I2
Small Scale Structure Catalog
112 SSSNAM Name of closest SSS association --- A10
122 DISSSS Separation from the SSS source Arc minutes I3
125 NONGAL Number of associations from --- I2
non-galaxy catalogs listed in
table S.V.H.1.
128 IDNGAL Code indicating non-galaxy --- A1
catalog with closest association,
see table IV.A.2.
130 DSNGAL Separation of the non-galaxy Arc minutes I3
source
133 NRECS Number of lines in association --- I2
file which are keyed on this
IRAS name
135 BLANKS Blank space for possible added --- A26
data
[1] In the FITS header, these quantities are suffixed by the wavelength.
Example: CC(4) is given as CC_12, CC_25, CC_60, and CC_100.
Table IV.B.2. Format of Association Data for Extragalactic Catalog Tape
Start
Byte Name Description Units Format
1 NAME Repeat of IRAS source name --- A11
12 PGCNAM Galaxy name from Primary Galaxy --- A12
Catalog (UGC, UGCA, ESO, OR CGCG)
25 NPGC Number of appearances --- I1
27 DIAMP Major axis diameter Arc seconds I4
33 DISPGC Distance from IRAS source Arc seconds I3
37 PAPGC Position angle of separation Degrees East I3
vector of North
41 POSFLG Position flag, see Sec.IX --- A1
42 MAGFLG Magnitude flag, see Sec.IX --- A1
44 MAGPGC Magnitude from Primary Galaxy Magnitude F4.1
Catalog
49 CLASSN Classification field --- A7
57 MCGNAM Galaxy name from MCG --- A11
69 NMCG Number of appearances --- I1
71 DIAMM Major axis diameter Arc seconds I4
76 DISMCG Distance from IRAS source Arc seconds I3
80 PAMCG Position angle of separation Degrees East I3
vector of North
84 NGCIC NGC or IC identification of --- A7
Primary Catalog or MCG galaxy
91 AMDNAM ARP, MKN, DDO associations --- A7
99 NAMD Number of appearances --- I1
101 DISAMD Distance from IRAS source Arc seconds I3
105 PAAMD Position angle of separation Degrees East I3
vector of North
109 VVZNAM VCV, VV, Zwicky list associations --- A11
121 NVVZ Number of appearances --- I1
123 DISVVZ Distance from IRAS source Arc seconds I3
127 PAVVZ Position angle of separation Degrees East I3
vector of North
131 VCVFLG VCV identifier or VV flag, --- A2
see Sec. IX
133 RECNO Main Data Table record number --- I5
for IRAS source
138 BLANKS Blank space for possible --- A23
added data