- Ancillary Targets
- Transient Universe in Stripe 82
- Host Galaxies of SDSS-II SNe
- BCGs in
Stripe 82 - High-Quality LRG spectra
- Reddened
Quasars - No Quasar Left Behind
- Variability-Selected Quasars
- K-band Selected Quasars
- Low-Mass Stars and Brown Dwarfs
- Low-Mass Binary Stars
- White Dwarfs and Hot Subdwarfs
- Distant Halo
Giants - Bright
Galaxies - High-Energy Blazars in Optical
- An X-Ray View Star Formation
- Remarkable X-Ray Sources
- Star-Forming Radio Galaxies
- Galaxies Near QSO Sight Lines
- Luminous Blue Galaxies
- BAL Quasar Variability
- Variable QSO Absorption
- Double-Lobed Radio QSOs
- High-Redshift Quasars
- High-z QSOs in SDSS/UKIDSS
- BOSS Targeting
- Algorithms
Variable Quasars with Narrow-line Absorption
Summary
Spectra of narrow absorption line quasars in a 7,650 square degree survey area
Finding Targets
An object whose ANCILLARY_TARGET2
value include one or more of the bitmasks
in the following table was targeted for spectroscopy as part of this ancillary target program.
See SDSS-III bitmasks to learn how to use these
values to identify objects in this ancillary target program.
Program (bit name) |
Bit name | Target Description | Target density (deg–2) |
---|---|---|---|
QSO_AAL | 22 | Radio-quiet, with one absorption system associated with the quasar | 0.08 |
QSO_AALS | 23 | Radio-quiet, with multiple absorption systems associated with the quasar | 0.2 |
QSO_IAL | 24 | Radio-quiet, with one intervening absorption system | 0.05 |
QSO_RADIO | 25 | Radio-loud, with multiple absorption systems, either local or intervening | 0.04 |
QSO_RADIO_AAL | 26 | Radio-loud, with one absorption system associated with the quasar | 0.02 |
QSO_RADIO_IAL | 27 | Radio loud, with one intervening absorption system | 0.01 |
QSO_NO_AALS | 28 | Radio-quiet, with multiple intervening absorption systems and no associated absorption systems | 0.01 |
Description
Quasar absorption lines are plentiful in SDSS-I and II, and have been documented in a catalog of all lines and systems (QSOALS; York et al. 2005). This catalog (York et al., in prep.), now updated through Data Release 7, contains 60,000 uniformly-detected quasar absorption line systems in which two or more transitions from common metal absorption lines (e.g., Mg II, Fe II, C IV) are identified at the same redshift. This dataset has been used to study the statistics of quasar absorption lines (York et al. 2006) and to confirm correlations with quasars (Wild et al. 2007), as well as foreground galaxies projected along the line of sight (Lundgren et al. 2009).
It has been shown that smaller equivalent width BALs are more prone to variation on short timescales (e.g., Barlow 1994; Lundgren et al. 2007). A large survey of variability in narrow absorption lines (NALs) is therefore required in order to examine if this trend applies across a larger range in equivalent widths. Complementary to the BAL quasar variability ancillary target selection program, this program seeks to compile the largest dataset of multi-epoch observations of quasar sight lines with known narrow absorption along the line of sight. Detections of variability in narrow absorption line systems hold great promise for identifying high-velocity intrinsic quasar absorption and mini-BAL emergence and for providing limits on the sizes of cold gas clouds in the extended haloes of luminous galaxies in the foreground.
Primary contact
Don York |
---|
University of Chicago |
don -at- oddjob.uchicago.edu |
Target Selection Details
The targets of this program include quasars with 16.5 < ifib2 < 17.9 and redshift 0.7 < z < 2.2 from the DR7 quasar catalog (Schneider et al. 2010), which would otherwise be ignored by the primary BOSS target selection. Sight lines with known BALs (Gibson et al. 2008) are ignored, as this parameter space is being covered by the BAL quasar variability program. Each of the sight lines targeted in this program contains a NAL system detected at > 4σ (including multiple unambiguous transitions of Mg II, C IV, or both), which have been identified in York et al. (2005).
However, this program is not limited only to cases in which previously identified NALs disappear in later epochs, since NALs should have the same probability of emerging along these lines of sight with and without identified NALs. In total, this program targets about 3000 quasars with a target density of ~0.35 deg-2.
As one of the science goals of this program is to determine the extent of variable NALs in velocity space relative to the quasar, the target list includes sight lines with NALs over a wide range in velocity. The following sub-groups allow for the identification of quasars and absorbers with particular characteristics.
- QSO RADIO AAL: radio-loud with 1 associated absorption system (AAL; v ≤ 5000 km/s in the quasar rest frame)
- QSO RADIO IAL: radio-loud with 1 intervening absorption system (IAL: v > 5000 km/s in the quasar rest frame)
- QSO AAL: radio-quiet source with 1 AAL
- QSO IAL: radio-quiet source with 1 IAL
- QSO RADIO: radio-loud source with multiple AALs and/or IALs
- QSO AALs: radio-quiet source with multiple AAL and/or IALs
- QSO noAALs: radio-quiet source with no AALs and multiple IALs
REFERENCES
Barlow, T. A. 1994, PASP, 106, 548
Gibson, R. R., Brandt, W. N., Schneider, D. P., & Gallagher, S. C. 2008, ApJ, 675, 985
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, ApJ, 656, 73
Lundgren, B. F., et al. 2009, ApJ, 698, 819
Schneider, D. P., et al. 2010, AJ, 139, 2360
Wild, V., Hewett, P. C., & Pettini, M. 2007, MNRAS, 374, 292
York, D. G., et al. 2005, in IAU Colloq. 199: Probing Galaxies
through Quasar Absorption Lines, ed. P. Williams, C.-G. Shu,
& B. Ménard, 58-64
York, D. G., et al. 2006, MNRAS, 367, 945