The imaging catalogs
Introduction
The calibrated object lists reports positions, fluxes, and shapes of all objects detected at >5 sigma on the survey images. Here we describe the basics of obtaining and searching the catalogs, and the metadata associated with each field and run.
To understand the imaging data, you first need an understanding of the basic imaging data information. Below we refer to the algorithms pages for details on the calibration and the photometric parameters. In general, you will obtain the best results only after carefully reading that documentation. In particular, you need to look at the object flags in the object lists to obtain meaningful results.
photoObj table and flat files
Calibrated object lists are stored both as flat files and as the photoObj table CAS. These two sets of data are nearly identical, with only some minor naming convention differences due to historical artifacts, and a small number of columns that exist in one but not the other. This data has photometric and astrometric calibrations applied, and contains enough information to select unique objects and to perform quality cuts.
For many purposes the best source of the object lists is the
photoObj table in CAS, which allows for SQL
searches across the entire dataset. The primary key of this table
is objID
, which
can be used to join with the external catalog tables (e.g. TwoMass,
TwoMassXSC, First, ROSAT, RC3, and USNOB), the proper motions
tables (properMotions), and the spectroscopic catalogs
(specObjAll, sppParams, sppLines, etc).
For example, the follow query will return some basic magnitudes of a handful of stars:
SELECT top 50 run, camcol, field, obj, ra, dec, psfMag_u, psfMag_g, psfMag_r FROM photoObj WHERE type = 6
In the flat files on SAS, the the photoObj*.fits
files directly correspond to the photoObj table in CAS, and contain
all the detected objects. There is one file per field. The files are binary fits
tables with one row per object. The total data set is about 3.7 TB, so
downloading the entire set will not be practical for most users; for
many purposes the sweeps
files will be more sensible. The external catalogs are stored in
separate files, in a
parallel set of directories.
The photoop
IDL package distributed with the SDSS software contains code to read in the
photoObj files, and is designed to read in the external catalogs
together with the photoObj files as desired. For example, to read in
the objects in run 745, camcol 4, field 300, and the matches to USNO-B
and the 2MASS point source catalog:
pobj= photoobj_read(745, 4, 300, rerun=301, extcats=['2MASS', 'USNOB'])
In both the flat files and in CAS, detections corresponding to the same source on the sky are included in the table. One must use the techniques described in the resolve documentation to select unique objects across the survey (or within a single run). Note that the photoPrimary table in CAS is a "view" of photoObj which only includes unique objects.
Additionally, some objects have been flagged by the photometric software as untrustworthy (e.g. including saturated pixels, or close to a field edge, or badly deblended). Please see the discussion of these flags object flags for a full description of the diagnostic flags.
A number of estimators of the flux, the classification, and shape parameters of the objects are included in the files, described in the magnitude and classification algorithms pages. The algorithms pages also describe the ubercalibration and other details of the photometric pipeline.
Notes
- In DR6 and previous, the flat files corresponding to photoObj files were known as "tsObj" files; these are now obsolete. In DR7, these flat files had a different name, "drObj". Because of the changing format, we additionally changed the name.
- The primary header of
photoObj
files contains some parameters applying to the entire field, such as the seeing (but also see the PSF parameters in thephotoField
file below). - The reported magnitudes are calibrated but not
Galactic extinction corrected. The Galactic extinction for each object as derived from Schlegel,
Finkbeiner, and Davis (1998) dust
maps is reported as
extinction
.
Datasweep Files
The
calibObj
,
AKA "datasweep", files contain a subset of
the data in the
photoObj
files. The datasweeps are designed
for those who want to work with essentially every well measured
object, but only need the most commonly used parameters.
This use case is practical with the
datasweep files which total about 300GB of data.
Only objects with well determined flux in at least one band are
included. For galaxies, the limit is set at an extinction corrected
model magnitude
less than [21.0,22.0,22.0,20.5,20.1] in u,g,r,i,z
respectively. For stars, the limit is set at an extinction-corrected
PSF magnitude
less than [22.5,22.5,22.5,22.0,21.5] in u,g,r,i,z
.
In addition, only a subset of the measured parameters are included,
such as positions, magnitudes, shapes, sizes, processing flags,
etc.
As opposed to the photoObj
files, there is one calibObj
file per camcol. There is also a separate
file for each of the primary types: "star", "gal", and "sky". Each of
these files contains a FITS binary table. See the
calibObj description
for full details.
The calibObj
files can be read with any FITS binary table
reader. The photoop
IDL package contains code to simplify
reading these files by run,camcol, and type
. If the
environment variable $PHOTO_SWEEP
is set to the base directory
holding these files, one can use the sweep_readobj
function to read the data. E.g. to read
run=756, camcol=2, rerun=301 for galaxies, one can use the sweep_readobj
function:
IDL> data=sweep_readobj(756, 2, rerun=301, type='gal')
See the software page
to get photoop
and other officially supported software.
Further cuts should be made on these data before using them for science. Most
users will only want the
SURVEY PRIMARY
objects. See the resolve
documentation for how to select primary objects. Of the primary objects,
most users will
want to remove saturated and other problematic detections. See the
object flags for a full description
of the diagnostic flags.
Field and run metadata
For each run, and each field within each run, we provide metadata
with information on the location of each run, the observing
conditions, quality flags, and other relevant information. This are
stored in the CAS as the Run and Field tables, and in the flat files
as the
photoField
and
photoRun
files.
The following information is included for each field:
- image quality flags
- flux calibration information
- point-spread function quantities
- sky measurement quantities
- astrometric calibrations
The following information is included for each run:
- date of observation
- stripe and strip designation
- starting and ending field numbers
Uncalibrated files: fpAtlas, fpObjc, and others
Our release also contains all of the processed, but uncalibrated files for reference, in a directory referred to as PHOTO_REDUX (click here to browse the actual files). For example, corresponding to each photoObj file there is an uncalibrated set of data in an fpObjc file. Included in the same directory are other intermediate outputs of the pipeline, explained by the data model.
Most of these files are not for general consumption, but the directories do contain the fpAtlas files, which contain the individual atlas images for each object. See the images page for instructions on how to read these files.
Inside the PHOTO_REDUX directory for DR8 we also include the reductions of the Apache Wheel scans in the rerun 157 directories, described in the page on calibration. These scans are fast binned scans that are lower signal-to-noise and lower resolution than standard SDSS camera imaging. These reductions are essential to the survey calibration, and we include them here for that reason. However, we do not recommend their general use.