VizieR

CfA VizieR . ADAC VizieR . Cambridge (UK) VizieR . IUCAA VizieR . INASAN VizieR .

VizieR

Simple TargetList Of TargetsFast Xmatch with large catalogs or Simbad
Target Name (resolved by Sesame) or Position:
Target dimension:
NB: The epoch used for the query is the original epoch of the table(s)Radius Box size

  
J/AJ/155/111
  Abundances in the local region. III. Southern dwarfs (Luck, 2018)
Post annotation
img(gal)
1.J/AJ/155/111/table1(c)Program stars (907 rows)
2.J/AJ/155/111/table2Effective temperature, mass, and age data (907 rows)
3.J/AJ/155/111/table3Parameter and iron data (908 rows)
4.J/AJ/155/111/table4[x/H] for Z > 10 (908 rows)
5.J/AJ/155/111/table5Lithium, carbon, and oxygen data (908 rows)
6.J/AJ/155/111/table6Log ε details for Z > 10 (908 rows)

 
Query by Constraints constraints help applied on Columns (Output Order: + - )
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Column  Constraint Explain   (UCD)
  (ALL)recno  Record number assigned by the VizieR team. Should Not be used for identification. (meta.record)
   (ALL)ID (char) (i) Primary identifier (Note G1)   (meta.id;meta.main)
  (1)more (char) indicates data in Tables 2-6 for this star (meta.ref.url)
  (1)HD (char) HD identifier (Note G1)   (meta.id)
  (1)HIP  (n) [57/118321] Hipparcos number (Cat. I/239) (Note G1)   (meta.id)
  (1)HR  (n) [6/8969] HR number (Note G1)   (meta.id)
  (1)CCDM (char) Identifier in the Catalog of Components of Double & Multiple stars (cat. I/274) (Note G1)   (meta.id)
  (1)m_CCDM (char) CCDM component (meta.code.multip)
  (1)Cluster (char) Cluster identifier (Note G1)   (meta.id)
  (1)SpType (char) MK spectral type (Note G1)   (src.spType)
  (1)plx mas [5.41/796.92] Hipparcos parallax (Note G1)   (pos.parallax)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (1)e_plx mas (n) [0.14/25.9] Error in plx (Note G1)   (stat.error;pos.parallax)
  (1)Vmag mag [0.01/10.38] Apparent Johnson V band magnitude (Note G1)   (phot.mag;em.opt.V)
  (1)RV km/s (n) [-171.42/310.77] Radial velocity (Note G1)   (phys.veloc;pos.heliocentric)
  (1)e_RV km/s (n) [0/7.4] Error in RV (Note G1)   (stat.error)
  (1)l_vsin(i) (char) [<] Limit flag on vsin(i) (meta.code.error)
  (1)vsin(i) km/s (n) [0/100] Literature projected rotational velocity (phys.veloc.rotat)
  (1)Dist pc [1.3/184.8] Distance (pos.distance;pos.heliocentric)
  (1)E(B-V) mag [0/0.042] The (B-V) color excess (Note 1)   (phot.color.excess)
  (1)VMag mag [3.01/8.4] Absolute V band magnitude (phys.magAbs;em.opt.V)
  (1)Host (char) [H] Indicates system hosts planet(s) (Note 2)   (meta.code)
  (1)SimbadName (char) Designation understandable by the Simbad data-base (meta.id)
  (1)_RA deg (i) Right Ascension (J2000) from SIMBAD (not part of the original data) (pos.eq.ra;meta.main)
  (1)_DE deg (i) Declination (J2000) from SIMBAD (not part of the original data) (pos.eq.dec;meta.main)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (2+3+4+5+6)Teff K [4174/6815] Effective temperature (phys.temperature.effective)
  (2)e_Teff K (n) [8/99] Standard deviation in Teff (stat.error;phys.temperature.effective)
  (2)o_Teff   [1/13] Number of color(s) used to derive Teff (meta.number)
  (2)logL [Lsun] [-1.12/0.79] Log luminosity (logL/L) (phys.luminosity)
  (2)B1Mass Msun (n) [0.62/1.45] Mass determined from the Bertelli et al. (1994, J/A+AS/106/275) isochrones (phys.mass)
  (2)B1Age Gyr (n) [0.63/12.02] Age determined from the Bertelli et al. (1994, J/A+AS/106/275) isochrones (time.age)
  (2)DMass Msun (n) [0.57/1.49] Mass determined from the Dotter et al. (2008ApJS..178...89D) isochrones (phys.mass)
  (2)DAge Gyr (n) [0.6/12.5] Age determined from the Dotter et al. (2008ApJS..178...89D) isochrones (time.age)
  (2)YMass Msun (n) [0.58/1.51] Mass determined from the Demarque et al. (2004ApJS..155..667D) isochrones (phys.mass)
  (2)YAge Gyr (n) [0.6/12.0] Age determined from the Demarque et al. (2004ApJS..155..667D) isochrones (time.age)
  (2)B2Mass Msun (n) [0.56/1.48] Mass determined from the BaSTI Team (2016) isochrones (Note 1)   (phys.mass)
  (2)B2Age Gyr (n) [0.6/12.5] Age determined from the BaSTI Team (2016) isochrones (Note 1)   (time.age)
  (2)Massavg Msun (n) [0.57/1.47] Average mass (phys.mass)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (2)MRange Msun (n) [0/0.49] Range in mass determination (stat.error)
  (2)Ageavg Gyr (n) [0.6/12.13] Average age (time.age;stat.mean)
  (2)ARange Gyr (n) [0/10.79] Range in age determination (stat.error)
  (2)Mass Msun [0.57/1.47] Adopted mass (Note 2)   (phys.mass)
  (2+3+4+5+6)logg [cm/s2] [3.79/5.13] Log surface gravity (Note G2)   (phys.gravity)
  (3+4+5+6)Vt km/s [0.17/5] Microturbulent velocity (phys.veloc)
  (3+4+5+6)Vbroad km/s [1.2/80] Broadening velocity (Note G3)   (spect.line.broad)
  (3)[FeI/H] [-] [5.43/8.39] Total iron abundance computed from neutral iron lines (Note 1)   (phys.abund.Fe;meta.modelled)
  (3)e_[FeI/H] [-] [0.02/1.18] Standard deviation in [FeI/H] (stat.error;phys.abund)
  (3)o_[FeI/H]   [2/548] Number of neutral iron lines used to calculate [FeI/H] (meta.number)
  (3)[FeII/H] [-] (n) [5.42/9.37] Total iron abundance computed from first-ionization stage iron lines (Note 1)   (phys.abund.Fe;meta.modelled)
  (3)e_[FeII/H] [-] (n) [0.03/1.29] Standard deviation in [FeII/H] (stat.error;phys.abund)
  (3)o_[FeII/H]  (n) [1/81] Number of first-ionization stage iron lines used to calculate [FeII/H] (meta.number)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (3+4+5)[Fe/H] [Sun] [-2.04/1.02] Differential value in logarithms relative to the solar abundance for iron (Note 2)   (stat.value;arith.diff)
  (4)[Na/H] [Sun] (n) [-2.14/1.33] Differential value in logarithm relative to the solar abundance for sodium (Note 1)   (phys.abund)
  (4)[Mg/H] [Sun] (n) [-1.81/1.09] Differential value in logarithm relative to the solar abundance for magnesium (Note 1)   (phys.abund)
  (4)[Al/H] [Sun] (n) [-1.36/0.57] Differential value in logarithm relative to the solar abundance for aluminum (Note 1)   (phys.abund)
  (4)[Si/H] [Sun] (n) [-1.48/0.97] Differential value in logarithm relative to the solar abundance for silicon (Note 1)   (phys.abund)
  (4)[S/H] [Sun] (n) [-0.68/1.91] Differential value in logarithm relative to the solar abundance for sulfur (Note 1)   (phys.abund)
  (4)[Ca/H] [Sun] (n) [-1.76/2.04] Differential value in logarithm relative to the solar abundance for calcium (Note 1)   (phys.abund)
  (4)[Sc/H] [Sun] (n) [-1.97/2.7] Differential value in logarithm relative to the solar abundance for scandium (Note 1)   (phys.abund)
  (4)[Ti/H] [Sun] [-1.72/1.93] Differential value in logarithm relative to the solar abundance for titanium (Note 1)   (phys.abund)
  (4)[V/H] [Sun] (n) [-2.38/2.07] Differential value in logarithm relative to the solar abundance for vanadium (Note 1)   (phys.abund)
  (4)[Cr/H] [Sun] [-2.11/1.62] Differential value in logarithm relative to the solar abundance for chromium (Note 1)   (phys.abund)
  (4)[Mn/H] [Sun] (n) [-2.62/2.76] Differential value in logarithm relative to the solar abundance for manganese (Note 1)   (phys.abund)
  (4)[Co/H] [Sun] (n) [-2.05/3.3] Differential value in logarithm relative to the solar abundance for cobalt (Note 1)   (phys.abund)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)[Ni/H] [Sun] [-2.1/1.28] Differential value in logarithm relative to the solar abundance for nickel (Note 1)   (phys.abund)
  (4)[Cu/H] [Sun] (n) [-1.61/0.94] Differential value in logarithm relative to the solar abundance for copper (Note 1)   (phys.abund)
  (4)[Zn/H] [Sun] (n) [-2.04/0.71] Differential value in logarithm relative to the solar abundance for zinc (Note 1)   (phys.abund)
  (4)[Sr/H] [Sun] (n) [-1.88/2.45] Differential value in logarithm relative to the solar abundance for strontium (Note 1)   (phys.abund)
  (4)[Y/H] [Sun] (n) [-1.86/2.12] Differential value in logarithm relative to the solar abundance for yttrium (Note 1)   (phys.abund)
  (4)[Zr/H] [Sun] (n) [-1.72/3.14] Differential value in logarithm relative to the solar abundance for zirconium (Note 1)   (phys.abund)
  (4)[Ba/H] [Sun] (n) [-2.24/0.72] Differential value in logarithm relative to the solar abundance for barium (Note 1)   (phys.abund)
  (4)[La/H] [Sun] (n) [-1.6/1.31] Differential value in logarithm relative to the solar abundance for lanthanum (Note 1)   (phys.abund)
  (4)[Ce/H] [Sun] (n) [-1.06/3.48] Differential value in logarithm relative to the solar abundance for cerium (Note 1)   (phys.abund)
  (4)[Nd/H] [Sun] (n) [-1.77/5.58] Differential value in logarithm relative to the solar abundance for neodymium (Note 1)   (phys.abund)
  (4)[Sm/H] [Sun] (n) [-0.91/3.62] Differential value in logarithm relative to the solar abundance for samarium (Note 1)   (phys.abund)
  (4)[Eu/H] [Sun] (n) [-0.23/0.71] Differential value in logarithm relative to the solar abundance for europium (Note 1)   (phys.abund)
  (5)l_[Li/H] (char) [<] Upper limit flag on [Li/H] (meta.code.error;phys.abund)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (5)[Li/H] [-] [-0.5/3.4] Lithium abundance (Note 2)   (phys.abund)
  (5)NLTE   [-0.04/0.19] Correction for non-local thermodynamic equilibrium (arith.factor)
  (5)C505.2 [-] (n) [6.56/9.2] Log carbon abundance from C I 505.2 nm line (phys.abund)
  (5)C538.2 [-] (n) [6.16/8.78] Log carbon abundance from C I 538.2 nm line (phys.abund)
  (5)C2 [-] (n) [7.47/9.08] Log carbon abundance from C2 Swan lines (primary indicator at 513.5 nm) (phys.abund)
  (5)O615.5 [-] (n) [8.08/9.46] Log oxygen abundance from O I 615.5 nm triplet (phys.abund)
  (5)O630.0 [-] (n) [7.74/9.28] Log oxygen abundance from [O I] 630.0 nm line (phys.abund)
  (5)Cmean [-] (n) [6.53/9.06] Mean log carbon abundance (Note 3)   (phys.abund)
  (5)Omean [-] (n) [7.74/9.28] Mean log oxygen abundance (Note 3)   (phys.abund)
  (5)[C/H]mean [Sun] (n) [-1.9/0.63] Mean carbon abundance relative to the solar value (phys.abund)
  (5)[O/H]mean [Sun] (n) [-0.95/0.59] Mean oxygen abundance relative to the solar value (phys.abund)
  (5)[C/Fe]mean [Sun] (n) [-1.24/0.82] Mean carbon abundance relative to iron (phys.abund)
  (5)[O/Fe]mean [Sun] (n) [-0.44/1.2] Mean oxygen abundance relative to iron (phys.abund)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)logNaI [-] (n) [4.14/7.61] Mean log Na I number abundance (Note 1)   (phys.abund)
  (6)e_logNaI [-] (n) [0.01/0.46] Standard deviation in logNaI (stat.error)
  (6)o_logNaI  (n) [1/8] Number of lines used to derive logNaI (meta.number)
  (6)logMgI [-] (n) [5.87/8.77] Mean log Mg I number abundance (Note 1)   (phys.abund)
  (6)e_logMgI [-] (n) [0.02/0.59] Standard deviation in logMgI (stat.error)
  (6)o_logMgI  (n) [1/8] Number of lines used to derive logMgI (meta.number)
  (6)logAlI [-] (n) [5.16/7.08] Mean log Al I number abundance (Note 1)   (phys.abund)
  (6)e_logAlI [-] (n) [0/0.4] Standard deviation in logAlI (stat.error)
  (6)o_logAlI  (n) [1/3] Number of lines used to derive logAlI (meta.number)
  (6)logSiI [-] (n) [6.05/8.6] Mean log Si I number abundance (Note 1)   (phys.abund)
  (6)e_logSiI [-] (n) [0.02/1.32] Standard deviation in logSiI (stat.error)
  (6)o_logSiI  (n) [1/50] Number of lines used to derive logSiI (meta.number)
  (6)logSiII [-] (n) [5.84/10.47] Mean log Si II number abundance (Note 1)   (phys.abund)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)e_logSiII [-] (n) [0/0.57] Standard deviation in logSiII (stat.error)
  (6)o_logSiII  (n) [1/2] Number of lines used to derive logSiII (meta.number)
  (6)logSI [-] (n) [6.56/9.14] Mean log S I number abundance (Note 1)   (phys.abund)
  (6)e_logSI [-] (n) [0/0.97] Standard deviation in logSI (stat.error)
  (6)o_logSI  (n) [1/8] Number of lines used to derive logSI (meta.number)
  (6)logCaI [-] (n) [-1.69/2.11] Mean log Ca I number abundance (Note 1)   (phys.abund)
  (6)e_logCaI [-] (n) [0.03/0.59] Standard deviation in logCaI (stat.error)
  (6)o_logCaI  (n) [1/41] Number of lines used to derive logCaI (meta.number)
  (6)logCaII [-] (n) [-0.56/2.76] Mean log Ca II number abundance (Note 1)   (phys.abund)
  (6)e_logCaII [-] (n) [0/1.29] Standard deviation in logCaII (stat.error)
  (6)o_logCaII  (n) [1/4] Number of lines used to derive logCaII (meta.number)
  (6)logScI [-] (n) [2.05/5.87] Mean log Sc I number abundance (Note 1)   (phys.abund)
  (6)e_logScI [-] (n) [0.01/1.04] Standard deviation in logScI (stat.error)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)o_logScI  (n) [1/15] Number of lines used to derive logScI (meta.number)
  (6)logScII [-] (n) [1.2/4.71] Mean log Sc II number abundance (Note 1)   (phys.abund)
  (6)e_logScII [-] (n) [0.01/0.69] Standard deviation in logScII (stat.error)
  (6)o_logScII  (n) [1/17] Number of lines used to derive logScII (meta.number)
  (6)logTiI [-] [3.31/6.92] Mean log Ti I number abundance (Note 1)   (phys.abund)
  (6)e_logTiI [-] [0.04/1.65] Standard deviation in logTiI (stat.error)
  (6)o_logTiI   [2/172] Number of lines used to derive logTiI (meta.number)
  (6)logTiII [-] (n) [3.16/6.56] Mean log Ti II number abundance (Note 1)   (phys.abund)
  (6)e_logTiII [-] (n) [0.03/1.18] Standard deviation in logTiII (stat.error)
  (6)o_logTiII  (n) [1/50] Number of lines used to derive logTiII (meta.number)
  (6)logVI [-] (n) [1.53/5.98] Mean log V I number abundance (Note 1)   (phys.abund)
  (6)e_logVI [-] (n) [0.03/2.63] Standard deviation in logVI (stat.error)
  (6)o_logVI  (n) [1/76] Number of lines used to derive logVI (meta.number)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)logVII [-] (n) [1.79/7.05] Mean log V II number abundance (Note 1)   (phys.abund)
  (6)e_logVII [-] (n) [0.01/1.27] Standard deviation in logVII (stat.error)
  (6)o_logVII  (n) [1/11] Number of lines used to derive logVII (meta.number)
  (6)logCrI [-] (n) [3.43/7.35] Mean log Cr I number abundance (Note 1)   (phys.abund)
  (6)e_logCrI [-] (n) [0.03/1.3] Standard deviation in logCrI (stat.error)
  (6)o_logCrI  (n) [1/156] Number of lines used to derive logCrI (meta.number)
  (6)logCrII [-] (n) [3.69/8.41] Mean log Cr II number abundance (Note 1)   (phys.abund)
  (6)e_logCrII [-] (n) [0/1.11] Standard deviation in logCrII (stat.error)
  (6)o_logCrII  (n) [1/20] Number of lines used to derive logCrII (meta.number)
  (6)logMnI [-] (n) [2.85/8.24] Mean log Mn I number abundance (Note 1)   (phys.abund)
  (6)e_logMnI [-] (n) [0.04/1.13] Standard deviation in logMnI (stat.error)
  (6)o_logMnI  (n) [1/41] Number of lines used to derive logMnI (meta.number)
  (6)logFeI [-] [5.43/8.39] Mean log Fe I number abundance (Note 1)   (meta.id)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)e_logFeI [-] [0.02/1.18] Standard deviation in logFeI (stat.error)
  (6)o_logFeI   [2/548] Number of lines used to derive logFeI (meta.number)
  (6)logFeII [-] (n) [5.42/9.37] Mean log Fe II number abundance (Note 1)   (meta.id)
  (6)e_logFeII [-] (n) [0.03/1.29] Standard deviation in logFeII (stat.error)
  (6)o_logFeII  (n) [1/81] Number of lines used to derive logFeII (meta.number)
  (6)logCoI [-] (n) [2.89/8.24] Mean log Co I number abundance (Note 1)   (phys.abund)
  (6)e_logCoI [-] (n) [0/1.59] Standard deviation in logCoI (stat.error)
  (6)o_logCoI  (n) [1/75] Number of lines used to derive logCoI (meta.number)
  (6)logNiI [-] [4.12/7.5] Mean log Ni I number abundance (Note 1)   (phys.abund)
  (6)e_logNiI [-] (n) [0.04/1.22] Standard deviation in logNiI (stat.error)
  (6)o_logNiI   [1/186] Number of lines used to derive logNiI (meta.number)
  (6)logCuI [-] (n) [2.61/5.16] Mean log Cu I number abundance (Note 1)   (phys.abund)
  (6)e_logCuI [-] (n) [0/1.25] Standard deviation in logCuI (stat.error)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)o_logCuI  (n) [1/6] Number of lines used to derive logCuI (meta.number)
  (6)logZnI [-] (n) [2.53/5.28] Mean log Zn I number abundance (Note 1)   (phys.abund)
  (6)e_logZnI [-] (n) [0.01/1.09] Standard deviation in logZnI (stat.error)
  (6)o_logZnI  (n) [1/4] Number of lines used to derive logZnI (meta.number)
  (6)logSrI [-] (n) [1.09/5.42] Mean log Sr I number abundance (Note 1)   (phys.abund)
  (6)e_logSrI [-] (n) [0/0.75] Standard deviation in logSrI (stat.error)
  (6)o_logSrI  (n) [1/4] Number of lines used to derive logSrI (meta.number)
  (6)logYI [-] (n) [0.39/5.53] Mean log Y I number abundance (Note 1)   (phys.abund)
  (6)e_logYI [-] (n) [0.01/2.28] Standard deviation in logYI (stat.error)
  (6)o_logYI  (n) [1/13] Number of lines used to derive logYI (meta.number)
  (6)logYII [-] (n) [0.43/4.14] Mean log Y II number abundance (Note 1)   (phys.abund)
  (6)e_logYII [-] (n) [0.02/0.76] Standard deviation in logYII (stat.error)
  (6)o_logYII  (n) [1/18] Number of lines used to derive logYII (meta.number)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)logZrI [-] (n) [1.7/5.82] Mean log Zr I number abundance (Note 1)   (phys.abund)
  (6)e_logZrI [-] (n) [0.01/1.13] Standard deviation in logZrI (stat.error)
  (6)o_logZrI  (n) [1/20] Number of lines used to derive logZrI (meta.number)
  (6)logZrII [-] (n) [0.97/5.96] Mean log Zr II number abundance (Note 1)   (phys.abund)
  (6)e_logZrII [-] (n) [0/1.46] Standard deviation in logZrII (stat.error)
  (6)o_logZrII  (n) [1/15] Number of lines used to derive logZrII (meta.number)
  (6)logBaII [-] (n) [0.08/3.04] Mean log Ba II number abundance (Note 1)   (phys.abund)
  (6)e_logBaII [-] (n) [0/0.31] Standard deviation in logBaII (stat.error)
  (6)o_logBaII  (n) [1/4] Number of lines used to derive logBaII (meta.number)
  (6)logLaII [-] (n) [-0.37/2.54] Mean log La II number abundance (Note 1)   (phys.abund)
  (6)e_logLaII [-] (n) [0/1.01] Standard deviation in logLaII (stat.error)
  (6)o_logLaII  (n) [1/10] Number of lines used to derive logLaII (meta.number)
  (6)logCeII [-] (n) [0.67/5.2] Mean log Ce II number abundance (Note 1)   (phys.abund)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (6)e_logCeII [-] (n) [0.01/2.47] Standard deviation in logCeII (stat.error)
  (6)o_logCeII  (n) [1/39] Number of lines used to derive logCeII (meta.number)
  (6)logPrII [-] (n) [-0.19/4.12] Mean log Pr II number abundance (Note 1)   (phys.abund)
  (6)e_logPrII [-] (n) [0.01/0.89] Standard deviation in logPrII (stat.error)
  (6)o_logPrII  (n) [1/8] Number of lines used to derive logPrII (meta.number)
  (6)logNdII [-] (n) [-0.2/7.15] Mean log Nd II number abundance (Note 1)   (phys.abund)
  (6)e_logNdII [-] (n) [0.05/3.48] Standard deviation in logNdII (stat.error)
  (6)o_logNdII  (n) [1/42] Number of lines used to derive logNdII (meta.number)
  (6)logSmII [-] (n) [0.18/4.71] Mean log Sm II number abundance (Note 1)   (phys.abund)
  (6)e_logSmII [-] (n) [0.01/2.19] Standard deviation in logSmII (stat.error)
  (6)o_logSmII  (n) [1/33] Number of lines used to derive logSmII (meta.number)
  (6)logEuII [-] (n) [0.25/1.19] Mean log Eu II number abundance (Note 1)   (phys.abund)
  (6)o_logEuII  (n) [1] Number of lines used to derive logEuII (meta.number)

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