TY - JOUR
T1 - Faint high-latitude carbon stars discovered by the sloan digital sky survey
T2 - Methods and initial results
AU - Margon, Bruce
AU - Anderson, Scott F.
AU - Harris, Hugh C.
AU - Strauss, Michael A.
AU - Knapp, G. R.
AU - Fan, Xiaohui
AU - Schneider, Donald P.
AU - Vanden Berk, Daniel E.
AU - Schlegel, David J.
AU - Deutsch, Eric W.
AU - Ivezić, Željko
AU - Hall, Patricke B.
AU - Williams, Benjamin F.
AU - Davidsen, Arthur F.
AU - Brinkmann, J.
AU - Csabai, István
AU - Hayes, Jeffrey J.E.
AU - Hennessy, Greg
AU - Kinney, Ellyne K.
AU - Kleinman, S. J.
AU - Lamb, Don Q.
AU - Long, Dan
AU - Neilsen, Eric H.
AU - Nichol, Robert
AU - Nitta, Atsuko
AU - Snedden, Stephanie A.
AU - York, Donald G.
PY - 2002/9
Y1 - 2002/9
N2 - We report the discovery of 39 faint high-latitude carbon stars (FHLCs) from Sloan Digital Sky Survey (SDSS) commissioning data. The objects, each selected photometrically and verified spectroscopically, range over 16.6 < r* < 20.0 and show a diversity of temperatures as judged by both colors and NaD line strengths. Although a handful of these stars were previously known, these objects are, in general, too faint and too warm to be effectively identified in other modern surveys such as the Two Micron All Sky Survey, nor are their red/near-IR colors particularly distinctive. The implied surface density of FHLCs in this magnitude range is uncertain at this preliminary stage of the survey because of completeness corrections but is clearly greater than 0.05 deg-2. At the completion of the Sloan survey, there will be many hundred homogeneously selected and observed FHLCs in this sample. We present proper-motion measures for each object, indicating that the sample is a mixture of extremely distant (greater than 100 kpc) halo giant stars, useful for constraining halo dynamics, and members of the recently recognized exotic class of very nearby dwarf carbon (dC) stars. The broadband colors of the two populations are indistinguishable. Motions, and thus dC classification, are inferred for 40%-50% of the sample, depending on the level of statistical significance invoked. The new list of dC stars presented here, although selected from only a small fraction of the final SDSS, doubles the number of such objects found by all previous methods. The observed kinematics suggest that the dwarfs occupy distinct halo and disk populations. The coolest FHLCs with detectable proper motions in our sample also display multiple CaH bands in their spectra. It may be that CaH is another long-sought, low-resolution, spectroscopic luminosity discriminant between dC's and distant faint giants, at least for the cooler stars.
AB - We report the discovery of 39 faint high-latitude carbon stars (FHLCs) from Sloan Digital Sky Survey (SDSS) commissioning data. The objects, each selected photometrically and verified spectroscopically, range over 16.6 < r* < 20.0 and show a diversity of temperatures as judged by both colors and NaD line strengths. Although a handful of these stars were previously known, these objects are, in general, too faint and too warm to be effectively identified in other modern surveys such as the Two Micron All Sky Survey, nor are their red/near-IR colors particularly distinctive. The implied surface density of FHLCs in this magnitude range is uncertain at this preliminary stage of the survey because of completeness corrections but is clearly greater than 0.05 deg-2. At the completion of the Sloan survey, there will be many hundred homogeneously selected and observed FHLCs in this sample. We present proper-motion measures for each object, indicating that the sample is a mixture of extremely distant (greater than 100 kpc) halo giant stars, useful for constraining halo dynamics, and members of the recently recognized exotic class of very nearby dwarf carbon (dC) stars. The broadband colors of the two populations are indistinguishable. Motions, and thus dC classification, are inferred for 40%-50% of the sample, depending on the level of statistical significance invoked. The new list of dC stars presented here, although selected from only a small fraction of the final SDSS, doubles the number of such objects found by all previous methods. The observed kinematics suggest that the dwarfs occupy distinct halo and disk populations. The coolest FHLCs with detectable proper motions in our sample also display multiple CaH bands in their spectra. It may be that CaH is another long-sought, low-resolution, spectroscopic luminosity discriminant between dC's and distant faint giants, at least for the cooler stars.
KW - Astrometry
KW - Stars: carbon
KW - Stars: statistics
KW - Surveys
UR - http://www.scopus.com/inward/record.url?scp=0011267349&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=0011267349&partnerID=8YFLogxK
U2 - 10.1086/342284
DO - 10.1086/342284
M3 - Review article
AN - SCOPUS:0011267349
SN - 0004-6256
VL - 124
SP - 1651
EP - 1669
JO - Astronomical Journal
JF - Astronomical Journal
IS - 3 1761
ER -