Broad Absorption Line (BAL) Quasar Variability Survey
|Pennsylvania State University|
Spectra for broad absorption lines (BAL) quasars in a 5740 deg2 survey area
An object whose
ANCILLARY_TARGET1 value includes one or more of the bitmasks in the following table was targeted for spectroscopy as part of this ancillary target program. See SDSS bitmasks to learn how to use these values to identify objects in this ancillary target program.
|Program (bit name)||Bit number||Target Description||Number of Fibers||Number of Unique Primary Objects|
|FBQSBAL||15||Broad absorption line (BAL) quasar with spectrum from the FIRST Bright Quasar Survey (FBQS)||13||10
TODO: Kyle says 12
|LBQSBAL||16||Broad absorption line (BAL) quasar with spectrum from the Large Bright Quasar Survey (LBQS)||6||6|
|ODDBAL||17||Broad absorption line (BAL) quasar with various unusual properties||37||28
TODO: Kyle says 32
|OTBAL||18||Photometrically-selected overlapping-trough (OT) broad absorption line (BAL) quasar||16||12
TODO: Kyle says 15
|PREVBAL||19||Broad absorption line (BAL) quasar with prior spectrum from SDSS-I/-II||34||15|
|VARBAL||20||Photometrically-selected candidate broad absorption line (BAL) quasar||1,699||1,381
TODO: Kyle says 1,470
Thousands of broad absorption line (BAL) quasars were discovered in the SDSS-I and SDSS-II (e.g. Gibson et al. 2009). In some cases, repeat spectroscopy showed variable absorption, providing clues to the nature of the BAL phenomenon (e.g., Lundgren et al. 2007, Gibson et al. 2008, Gibson et al. 2010). Returning with BOSS to obtain repeat spectra for a much larger sample of these quasars allows for large-scale study of BAL variability on multi-year timescales in the rest frame. The resulting data provide insight into the dynamics, structure, and energetics of quasar winds.
The first science results from this ancillary project have appeared in ApJ (Filiz Ak et al. 2012, Filiz Ak et al. 2013), and were the subject of an SDSS-III Press Release of October 1, 2012: Gone, with the Wind.
Targets for this ancillary project were selected before the decision was made to re-target known quasars at z > 2.15 in the BOSS Quasar target selection algorithm; thus there is some overlap between the two samples. However, this ancillary project does provide many unique targets at z < 2.15.
The main sample of BAL quasars chosen for study contains objects assigned the ancillary target flag
VARBAL; this sample is about two orders of magnitude larger than those previously used to investigate BAL variability on multi-year timescales. These objects were selected to be optically bright (iPSF < 19.28 with no correction for extinction), and to have at least moderately strong absorption in one of their BAL troughs (with a “balnicity index” of BI0 > 100 km/s as measured by Gibson et al. (2009).
In addition, only quasars in redshift ranges such that strong BAL transitions are fully covered by SDSS-I/-II/BOSS spectra (from outflow velocities of 0-25000 km/s) were included; see Section 4 of Gibson et al. (2009) for further explanation. The corresponding redshift ranges are 1.96 < z < 5.55 for Si IV BALs, 1.68 < z < 4.93 for C IV BALs, 1.23 < z < 3.93 for Al III BALs, and 0.48 < z < 2.28 for Mg II BALs.
Finally, for those objects in the Gibson et al. (2009) catalog that have measurements of the signal-to-noise ratio at rest-frame 1700 Å (
SN1700), we require SN1700 > 6; this criterion ensures that high-quality SDSS-I/-II spectra are available for these targets.
In addition to the primary sample objects described above as
VARBAL, the BAL quasar variability survey also targets additional BAL quasars selected through other target selection approaches. These targets may violate one or more of the selection criteria used for the
VARBAL targets, but they have been identified as worthy of new observations nonetheless.
The relevant source types for these additional BAL quasars are the following:
FBQSBALare BAL quasars identified in the Large Bright Quasar Survey (LBQS; e.g., Hewett et al. 1995) and the FIRST Bright Quasar Survey (FBQS; e.g., White et al. 2000), respectively. These targets thus have LBQS or FBQS spectra predating the SDSS-I/-II spectra by up to a decade or more.
OTBAL(Overlapping-Trough BAL quasars) are BAL quasars with nearly complete absorption at wavelengths shortward of Mg II in one epoch, and which in one case have already shown extreme variability (e.g., Hall et al. 2002). These objects were selected by hand as likely to be highly unusual.
PREVBALare BAL quasars observed more than once by SDSS-I/-II. They thus already possess more than one observation epoch for comparison to BOSS spectra.
ODDBALare BAL quasars selected to have various unusual properties (e.g., Hall et al. 2002). For these objects, variability (or lack thereof) between SDSS-I/-II and BOSS may help to unravel the processes responsible for their unusual spectra.
Filiz Ak, N., Brandt, W. N., Hall, P. B., Schneider, D. P., Anderson, S. F., Gibson, R. R., Lundgren, B. F., Myers, A. D., Petitjean, P., Ross, N. P.; Shen, Y., York, D. G., Bizyaev, D., Brinkmann, J., Malanushenko, E., Oravetz, D. J., Pan, K., Simmons, A. E., & Weaver, B. A. 2012 (Abstract from ADS), ApJ, 757, 114, doi:10.1088/0004-637X/757/2/114
Filiz Ak, N., Brandt, W. N., Hall, P. B., Schneider, D. P., Anderson, S. F., Hamann, F., Lundgren, B. F., Myers, A. D., Pâris, I., Petitjean, P., Ross, N. P., Shen, Y., York, D. G. 2013 (Abstract from ADS), ApJ, 777, 168, doi:10.1088/0004-637X/777/2/168
Gibson, R.R., Brandt, W.N., Schneider, D.P., & Gallagher, S.C., 2008, AJ, 675, 985, doi:10.1086/527462
Gibson, R.R., Jiang, L., Brandt, W.N., Hall, P.B., Shen, Y., Wu, J., Anderson, S.F., Schneider, D.P., Vanden Berk, D., Gallagher, S.C., Fan, X., & York, D.G., 2009, AJ, 692, 758, doi:10.1088/0004-637X/692/1/758
Gibson, R.R., Brandt, W.N., Gallagher, S.C., Hewett, P.C., & Schneider, D.P., 2010, ApJ, 713, 200, doi:10.1088/0004-637X/713/1/220
Hall, P.B., et al., 2002, ApJS, 141, 267, doi:10.1086/340546
Hewett, P.C., Foltz, C.B. & Chaffee, F.H., 1995, AJ, 109, 1498
Lundgren, B.F., Wilhite, B.C., Brunner, R.J., Hall, P.B., Schneider, D.P., York, D.G., Vanden Berk, D.E., & Brinkmann, J., 2007, AJ, 656, 73, doi:10.1086/510202
White, R.L., Becker, R.H., Gregg, M.D., Laurent-Muehleisen, S.A., Brotherton, M.S., Impey, C.D., Petry, C.E., Foltz, C.B., Chaffee, F.H., Richards, G.T., Oegerle, W.R., Helfand, D.J., McMahon, R.G., & Cabanela, J.E., 2000, ApJS, 126, 133, doi:10.1086/313300