Database

Q: What kind of magnitude is listed in the Basic Data?
A: These are usually optical magnitudes taken from the astronomical literature, and should be understood as being indicative only. We are adding letters after the magnitudes indicating the band pass to which the magnitude applies. For example, we use "U", "B", "V", "R", and "I" for the standard Johnson and/or Cousins magnitudes in the optical; "p" for photographic magnitudes from e.g. IIa-O or 103a-O plates, "g" for Gunn g-band magnitudes, "j" for magnitudes from III-aJ plates, "J" for 2MASS near-IR magnitudes, and so on. We will eventually have all of NED's Basic Data magnitudes flagged with the band passes. In the meantime, the magnitude may have already been included in NED's table of of referenced Photometric Data.

Q: How do I read a 19-digit REFCODE? A: NED reference codes are 19-character strings of the form: YYYYPUBLNVVVVMPPPPA

Unused characters are padded with dots ".". The fields within the string are as follows:

YYYYThe four digits of the year of publication
PUBLNThe journal code, left-justified within the five-digit field
The codes for those journals regularly entered into NED are:
A&A..Astronomy and Astrophysics
A&AS.Astronomy and Astrophysics Supplement Series
AJ...Astronomical Journal
ApJ..Astrophysical Journal
ApJS.Astrophysical Journal Supplement Series
ARep.Astronomy Reports (formerly Soviet Astronomy)
AstL.Astronomy Letters (formerly Soviet Astronomy Letters)
Ast..Astronomy
IAUC.IAU Circulars
MNRASMonthly Notices of the Royal Astronomical Society
NaturNature
PASP.Publications of the Astronomical Society of the Pacific
PASJ.Publications of the Astronomical Society of Japan
VVVVVolume number of the journal, right-justified within the four-digit field
MTie-breaker code. Where ambiguity is possible (e.g. between the main journal section,
and the "letters" section of a journal), the following characters or digits in this field break the ambiguity:
LLetters sections in various journals
pPink pages in MNRAS. (changed to "L" in 1993)
1, 2, ..., 9,Issue numbers 1 through 9, then "a" through "o", within the same volume of a journal
0, a, b, c, (e.g. Sky and Telescope, Physics Today).
..., o
A, B, ...Issue designations used by the publisher within the same volume, where each issue starts with page one.
OR
Two or more articles appearing on the same page within a single issue of a journal
(e.g. Nature, IAU Circulars) are lettered successively beginning with A - Z.
PPPPStarting page number of the article, right-justified
AFirst letter of the first author's last name, or a ":" when no authors are specified for a reference
More information on reference codes is available in NED and SIMBAD Conventions for Bibliographic Reference Coding.

Q: What do notations such as "NED01", ID", and "NOTES02" mean?
A: These are suffixes which we add to a root name to distinguish physically separate objects which do not otherwise carry separate names. For example, UGC 01562 is a double galaxy, but has only one entry in UGC. In order to include both galaxies in NED with unique names, we add the notation "NED01" and "NED02" to "UGC 01562". Similarly, we add "NOTES01" to UGC 01562 to refer to a galaxy included only in the UGC Notes for UGC 01562.

We typically use the "ID" suffix to indicate that a non-optical source (e.g. an infrared source) has been associated with an otherwise unnamed physical object, usually a galaxy. An example is "IRAS 00182+1130". This has been identified as a galaxy, but not given a separate name. The "ID" notation makes it clear that the object has been reclassified from its original type.

Other suffixes that we use include "COM" for a nearby companion, not necessarily physically connected to the main object (e.g. "3C 227 COM01"), "ABS" for an absorption line system seen along the line of sight to a background object (e.g. "[HB89] 1727+502 ABS01"), and "ARC" for gravitationally-lensed arcs usually found in rich clusters (e.g. "ABELL 0164 ARC01").

Q: How often is NED updated?
A: Usually three or four times a year. A backup working copy of the database is continually updated and checked for problems and errors before being released.

Q: How complete is NED?
A: We have tried to get all data published since 1988 into the database, but we invariably miss some and probably have errors as well. We are also constantly changing and refining the Basic Data so you may not always see the same data from month to month (although if the change is large we will generally include a note to that effect). Also, we scan the refereed literature only in the larger professional journals. Thus, if data are published only in an observatory monograph, only in preprint, only in a conference proceeding, or only in a thesis, we may well not see it. In these cases, we are happy to add the data to NED when you bring it to our attention.

Q: Are the redshifts reported in NED spectroscopic or photometric? And what do the codes following the redshift mean?
A: We adopt spectroscopic redshifts whenever they are available. Sometimes, however, only a photometric redshift is available for an object, or the source of a redshift is not clearly stated in the published paper. In those cases, we flag the redshifts if we know that they are not from spectroscopy. It is still possible, however, for photometric redshifts to slip in unflagged. In cases of doubt, we urge you to go back to the published paper to check the source of the redshifts.

When we can determine from the reference the Quality of a Basic Data redshift, we attach a code to it. Here is a list of the codes:

[blank] usually a reliable spectroscopic value
: an uncertain value
:: a highly uncertain value
? a very uncertain (questionable) value
1LIN a spectroscopic value from a single line, assuming the line is known
AVGnn average, based on nn measurements
CONT continuum, based on Balmer/4000A break (e.g., Kriek et al. 2008ApJ...677..219K)
EST an estimated value
FoF Friends-of-Friends (velocity of near neighbor)
LUM estimated from assumed luminosity for a brightest cluster galaxy (Nelson et al. ApJ 563, 629, 2001)
MFA a value from a matched filter algorithm (see Postman et al. AJ 111, 615, 1996)
MOD a modelled value
PAH redshift determined from PAH features
PHOT estimated using photometry
PEAK determined from peak of Gaussian distribution (e.g., Krick et al. 2009ApJ...700..123K)
PRED a predicted value
SED a value from a spectral energy distribution
SPEC an explicitly declared spectroscopic value
TENT a tentative value
TOMO a tomographic redshift for a lensing object (see e.g. Hennawi and Spergel ApJ 624, 59, 2005)
SN the redshift of a host galaxy determined from the expansion velocity of a supernova

Q: What is the source of the morphological types in the NED database? Is there a way to find out where the classifications for each galaxy came from?
A: Many of the morphological types in NED come from the Third Reference Catalog of Bright Galaxies (RC3). This is essentially the same system as described in the RC2. Both of these texts should be available from your library. We have also added physical classifications from spectroscopy when available (e.g. "Sy1", "BLLAC", "HII", and so forth). These and other classifications come from the literature, but are not yet specifically referenced.

Q: The "Morphology" line of NED's Basic Data sometimes contains abbreviations such as "BCD" and "Sbrst". What exactly do these mean?
A: These are usually "standard" abbreviations, taken from the literature, for various sorts of nuclear activity in galaxies. Occasionally, they are simply descriptive abbreviations relating to the morphology of the galaxy. Here is a list:

AGN active galactic nucleus
BAL broad absorption line
BEL broad emission line
BBG Balmer-break galaxy
BCDG blue compact dwarf galaxy
BH black hole
BLAGN broad-line active galactic nucleus
BLLAC BL Lacertae-type object
BLAZAR Strongly variable and optically-polarized QSO or BL Lac object, often with strong gamma- and X-ray emission
BlueCG blue compact galaxy (may be called BCG in the literature)
BLR broad line region
BLRG broad line radio galaxy
BrClG brightest cluster galaxy (may be called BCG in the literature)
cD supergiant galaxy with an extensive envelope in a cluster
CNELG compact narrow emission line galaxy
DANS dwarf amorphous nuclear starburst
DLA damped Lyman-alpha
DLyA damped Lyman-alpha
DOG dust-obscured galaxy
ELG emission line galaxy
ERO extremely red object
FSRQ flat spectrum radio QSO
HEG high-excitation narrow-line radio galaxy
HEX high excitation line galaxy
HII HII-type object
HPQ high polarization QSO
IFRS infrared faint radio source
LAE Lyman-alpha emitter
LBG Lyman-break galaxy
LCBG luminous compact blue galaxy
LCG luminous compact galaxy
LEG low-excitation narrow-line radio galaxy
LERG low-excitation radio galaxy (not to be confused with LIRG)
LEX low excitation line galaxy
LINER low-ionization nuclear emission-line region
LIRG luminous infrared galaxy (not to be confused with LERG)
LPQ low-polarization QSO
LSB low surface brightness
NELG narrow-emission-line galaxy
NLAGN narrow-line active galactic nucleus
NLRG narrow-line radio galaxy
NLSy1 narrow-line Seyfert 1
OFRG Optically-faint radio galaxy
PAS passive nucleus
PEG passive elliptical galaxy
QSO Quasi-stellar object
RET retired nucleus
RLG radio-loud galaxy
RLQ radio-loud quasar
RQQ radio-quiet quasar
Sbrst starburst object
SFRG Submillimeter-faint, star-forming radio galaxy
Sy1 Seyfert 1
Sy1.2 Seyfert 1.2
Sy1.5 Seyfert 1.5
Sy1.8 Seyfert 1.8
Sy1.9 Seyfert 1.9
Sy2 Seyfert 2
Sy3 Seyfert 3
ULIRG ultra-luminous infrared galaxy
XBONG X-ray bright/optically normal galaxy
XMPG eXtremely Metal-Poor Galaxy

Q: Is there any information which explains the jargon used in the photometry of objects in NED?
A: We encourage our users to go back to the original papers to fully understand the magnitudes adopted by NED. Here are a few examples of magnitudes currently found in NED's detailed photometric data:

  • u, g, r, i, or z usually refers to the five-band SDSS photometric system
  • B is a B-band magnitude on the Johnson system
  • BT is a total magnitude in the B-band
  • BT0 is a total magnitude in the B-band corrected to "face-on" (i.e. inclination = 0 degrees)
  • bj is approximately a B magnitude derived from photometry on a IIIa-J plate
  • R25 is an R magnitude at the 25th mag arcsec-2 isophote level
  • J, H, or Ks usually refers to the three-band 2MASS photometic system

Q: The fields of view from the 2MASS Large Galaxy Atlas (LGA) do not agree between the FITS and GIF versions of the images. Which is correct?
A: Both; each is correctly labeled. The FITS images cover the entire image from the LGA, while the GIF images typically cover only the inner parts of the FITS images. The GIFs are used for the quick-look thumbnails in the image list; while the FITS images always cover the entire galaxy, and are suitable for scientific use.

Q: What are the object type codes that NED uses?
A: Here is the current list of object types used in NED, listed alphabetically (objects within the Milky Way Galaxy have their types preceded by an exclamation point "!"):

* Star or Point Source
** Double star
*Ass Stellar association
*Cl Star cluster
AbLS Absorption line system
Blue* Blue star
C* Carbon star
EmLS Emission line source
EmObj Emission object
exG* Extragalactic star (not a member of an identified galaxy)
Flare*Flare star
G Galaxy
GammaSGamma ray source
GClstrCluster of galaxies
GGroupGroup of galaxies
GPair Galaxy pair
GTrpl Galaxy triple
G_LensLensed image of a galaxy
HII HII region
IrS Infrared source
MCld Molecular cloud
Neb Nebula
Nova Nova
Other Other classification (e.g. comet; plate defect)
PN Planetary nebula
PofG Part of galaxy
Psr Pulsar
QGroupGroup of QSOs
QSO Quasi-stellar object
Q_LensLensed image of a QSO
RadioSRadio source
Red* Red star
RfN Reflection nebula
SN Supernova
SNR Supernova remnant
UvES Ultraviolet excess source
UvS Ultraviolet source
V* Variable star
VisS Visual source
WD* White dwarf
WR* Wolf-Rayet star
XrayS X-ray source
!* Galactic star
!** Galactic double star
!*Ass Galactic star association
!*Cl Galactic Star cluster
!Blue*Galactic blue star
!C* Galactic carbon star
!EmObjGalactic emission line object
!Flar*Galactic flare star
!HII Galactic HII region
!MCld Galactic molecular cloud
!Neb Galactic nebula
!Nova Galactic nova
!PN Galactic planetary nebula
!Psr Galactic pulsar
!RfN Galactic reflection nebula
!Red* Galactic red star
!SN Galactic supernova
!SNR Galactic supernova remnant
!V* Galactic variable star
!WD* Galactic white dwarf
!WR* Galactic Wolf-Rayet star

Q: Why doesn't NED have any information about the Sun, the planets, or the stars?
A: NED is an extragalactic database. Data and references for Galactic objects may be retrieved from SIMBAD, maintained by the Centre de Donnees astronomiques de Strasbourg, France. Solar system and planetary data may be retrieved from NASA's Planetary Data System at JPL.

Q: What images are included in NED?
A: Most of the images NED holds on line are optical, infrared, and radio images of galaxies, though we do have some UV and X-ray images as well. We also collect HI spectra, isophote maps, and other graphical representation of extragalactic data. NED can also display an image of a given object from the Digitized Sky Survey using one of the Object Search options, or the Image Search option, all available on NED's Home Page.

Q: How may I contribute my data (catalogs, FITS images or spectra) to NED?
A: Please leave a comment with your name and email address so that we may contact you.

Q: Why is it that not all of the IRAS catalog entries are in NED?
A: When we loaded the IRAS catalogs, we used various filters to improve the chances of a source being extragalactic.

FSC sources in NED were chosen using the following "color" and quality constraints: 1) F(25)/F(60) < 2.0 AND
2) Q(60) ≥ 3
PSC sources used the same flux and color filters, and added three additional filters based on the IRAS "cirrus" flags: 1) cirr1 < 9 AND
2) cirr2 < 7 AND
3) cirr3 < 75
In addition, all PSC sources in the areas of the LMC, SMC, M31, and M33 were loaded into NED and flagged as being within the boundaries of those galaxies.

Q: There are only 1500 entries in the Markarian catalog. Yet NED has some Markarian numbers over 1500. Where do these extra numbers come from?
A: In 1986, V. A. Lipovetsky and J. A. Stepanian collected all the Markarian objects from the fifteen published lists into a complete "First Byurakan Survey." This list, never published but privately circulated, included an additional 32 objects given provisional numbers from 9001 to 9032. A few of these provisional numbers have appeared in the literature, so we have put all of them into NED. Then, in 1989, Markarian, Lipovetsky, Stepanian, L. K. Erastova, and A. I. Shapovalova published their complete Markarian catalog in Communications of the Special Astrophysical Observatory, No. 62 as "The First Byurakan Survey. A Catalogue of Galaxies with UV-continuum." This catalog has an additonal 15 objects numbered from 1501 to 1515, 14 from the 32 new objects in the 1986 list, and one new. We have also put these 15 numbers into NED, so the 14 new objects in common to the 1986 and 1989 lists carry two Markarian numbers.

Q: There is a gap in the Fairall numbers between 1185 and 1201. Do these objects exist?
A: No. Fairall's original lists (see Fairall, MNRAS 233, 691, 1988 and references therein) contained data for 1185 compact and bright-nucleus galaxies, while the latest paper (Fairall and Woudt, MNRAS 366, 267, 2006) has data for 336 galaxies found in large-scale structures across the sky near the South Celestial Pole. The two samples are thus independent. Therefore, Fairall started his numbers for his latest large-scale structure sample at 1201 to avoid confusion between it and his earlier sample of compact galaxies.

Q: The RC3 data in NED sometimes do not agree with the RC3 printed version. Why?
A: NED's version of RC3 (the Third Reference Catalogue of Bright Galaxies) includes the many corrections detailed in Corwin et al. AJ 108, 2128, 1994 as well as a few others made since that paper was published.

Q: DSS images of some galaxies near the celestial poles are rotated with respect to 2MASS images. Which image is correct?
A: The 2MASS images are correctly oriented. The direction of north on the DSS images is dependent on several factors, including their position on the original 6.4 x 6.4-degree sky survey plate, the epoch of the original plate, and the software used for scanning and image extraction. The 2MASS images come directly from the sky at an epoch very close 2000.0, so were processed with equinox J2000.0 coordinates.