VizieR

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

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NB: The epoch used for the query is the original epoch of the table(s)Radius Box size

  
J/A+A/694/A18
  Chemical abundances in LINERs from MaNGA. I (Perez-Diaz+, 2025)
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2025A&A...694A..18P
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1.J/A+A/694/A18/tableb1(c)List of galaxies and host galaxy properties in our sample of LINER-like galaxies (105 rows)
2.J/A+A/694/A18/tableb2Optical spectroscopic information for our sample of LINER-like galaxies (105 rows)
3.J/A+A/694/A18/tableb3Estimated oxygen abundances in the nuclear region of our sample of LINER-like galaxies based on different grids of photoionization models (105 rows)
4.J/A+A/694/A18/tableb4Estimated nitrogen-to-oxygen abundance ratios in the nuclear region of our sample of LINER-like galaxies based on different grids of photoionization models (105 rows)
5.J/A+A/694/A18/tableb5Estimated ionization parameters in the nuclear region of our sample of LINER-like galaxies based on different grids of photoionization models (105 rows)

Simple ConstraintList Of Constraints
 
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)Name (char) Identificators of the objects following the convention "PLATE-IFUDESIGN" (meta.id;meta.main)
  (1)z  Redshift (src.redshift)
  (1)SpType (char) Spectral type according to the BPT diagrams (Note 1)   (src.spType)
  (1)SpTypeWHAN (char) Spectral type according to the WHAN diagram (Note 2)   (src.spType)
  (1)R50 arcsec R50 petrossian isophote from NASA-Sloan Atlas (NSA) catalogue (phys.angSize)
  (1)logM* [Msun] Stellar mass from NASA-Sloan Atlas (NSA) catalogue (phys.mass)
  (1)logMHI [Msun] (n) HI mass from NASA-Sloan Atlas (NSA) catalogue (phys.mass)
  (1)SimbadName (char) (n)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)WHa 0.1nm Equivalent width of Halpha (spect.line.eqWidth)
  (2)cHbeta  (n) Extinction coefficient estimation (phys.absorption)
  (2)e_cHbeta  (n) Extinction coefficient uncertainty (stat.error)
  (2)OII-3727  Emission line ratio of doublet [OII]3726,3729Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_OII-3727  Uncertainty in emission line ratio of doublet [OII]3726,3729Å corrected from reddening and referred to Hbeta (stat.error)
  (2)NeIII-3868  (n) Emission line ratio of [NeIII]3868Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_NeIII-3868  (n) Uncertainty in emission line ratio of [NeIII]3868Å corrected from reddening and referred to Hbeta (stat.error)
  (2)OIII-5007  Emission line ratio of [NeIII]3868Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_OIII-5007  Uncertainty in emission line ratio of [OIII]5007Å corrected from reddening and referred to Hbeta (stat.error)
  (2)OI-6300  (n) Emission line ratio of [OI]6300Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_OI-6300  (n) Uncertainty in emission line ratio of [OI]6300Å corrected from reddening and referred to Hbeta (stat.error)
  (2)NII-6584  Emission line ratio of [NII]6584Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_NII-6584  Uncertainty in emission line ratio of [NII]6584Å corrected from reddening and referred to Hbeta (stat.error)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (2)SII-6717  Emission line ratio of [SII]6717Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_SII-6717  Uncertainty in emission line ratio of [SII]6717Å corrected from reddening and referred to Hbeta (stat.error)
  (2)SII-6731  (n) Emission line ratio of [SII]6731Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_SII-6731  (n) Uncertainty in emission line ratio of [SII]6731Å corrected from reddening and referred to Hbeta (stat.error)
  (2)SIII-9530  (n) Emission line ratio of [SIII]9530Å corrected from reddening and referred to Hbeta (spect.line.intensity;arith.ratio)
  (2)e_SIII-9530  (n) Uncertainty in emission line ratio of [SIII]9530Å corrected from reddening and referred to Hbeta (stat.error)
  (3)12logOH-a08e02  Optical estimation of the oxygen abundances assuming AGN models with alphaOX=-0.8 and efrac=0.02 (phys.abund)
  (3)e_12logOH-a08e02  Uncertainty in the optical estimation of the oxygen abundances assuming AGN models with alphaOX=-0.8 and efrac=0.02 (stat.error)
  (3)12logOH-a10e02  Optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.0 and efrac=0.02 (phys.abund)
  (3)e_12logOH-a10e02  Uncertainty in the optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.0 and efrac=0.02 (stat.error)
  (3)12logOH-a12e02  Optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.2 and efrac=0.02 (phys.abund)
  (3)e_12logOH-a12e02  Uncertainty in the optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.2 and efrac=0.02 (stat.error)
  (3)12logOH-a14e02  Optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.4 and efrac=0.02 (phys.abund)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (3)e_12logOH-a14e02  Uncertainty in the optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.4 and efrac=0.02 (stat.error)
  (3)12logOH-a16e02  Optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.6 and efrac=0.02 (phys.abund)
  (3)e_12logOH-a16e02  Uncertainty in the optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.6 and efrac=0.02 (stat.error)
  (3)12logOH-a18e02  Optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.8 and efrac=0.02 (phys.abund)
  (3)e_12logOH-a18e02  Uncertainty in the optical estimation of the oxygen abundances assuming AGN models with alphaOX=-1.8 and efrac=0.02 (stat.error)
  (3)12logOH-a20e02  Optical estimation of the oxygen abundances assuming AGN models with alphaOX=-2.0 and efrac=0.02 (phys.abund)
  (3)e_12logOH-a20e02  Uncertainty in the optical estimation of the oxygen abundances assuming AGN models with alphaOX=-2.0 and efrac=0.02 (stat.error)
  (3)12logOH-ADAFe02  Optical estimation of the oxygen abundances assuming advected-dominated accretion flow (ADAF) models and efrac=0.02 (phys.abund)
  (3)e_12logOH-ADAFe02  Uncertainty in the optical estimation of the oxygen abundances assuming advected-dominated accretion flow (ADAF) and efrac=0.02 (stat.error)
  (3)12logOH-T50kke02  Optical estimation of the oxygen abundances assuming pAGB models with T=50kK and efrac=0.02 (phys.abund)
  (3)e_12logOH-T50kke02  Uncertainty in the optical estimation of the oxygen abundances assuming pAGB models with T=50kK and efrac=0.02 (stat.error)
  (3)12logOH-T100kke02  Optical estimation of the oxygen abundances assuming pAGB models with T=100kK and efrac=0.02 (phys.abund)
  (3)e_12logOH-T100kke02  Uncertainty in the optical estimation of the oxygen abundances assuming pAGB models with T=100kK and efrac=0.02 (stat.error)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (3)12logOH-T150kke02  Optical estimation of the oxygen abundances assuming pAGB models with T=150kK and efrac=0.02 (phys.abund)
  (3)e_12logOH-T150kke02  Uncertainty in the optical estimation of the oxygen abundances assuming pAGB models with T=150kK and efrac=0.02 (stat.error)
  (4)logNO-a08e02  Optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-0.8 and efrac=0.02 (phys.abund)
  (4)e_logNO-a08e02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-0.8 and efrac=0.02 (stat.error)
  (4)logNO-a10e02  Optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.0 and efrac=0.02 (phys.abund)
  (4)e_logNO-a10e02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.0 and efrac=0.02 (stat.error)
  (4)logNO-a12e02  Optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.2 and efrac=0.02 (phys.abund)
  (4)e_logNO-a12e02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.2 and efrac=0.02 (stat.error)
  (4)logNO-a14e02  Optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.4 and efrac=0.02 (phys.abund)
  (4)e_logNO-a14e02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.4 and efrac=0.02 (stat.error)
  (4)logNO-a16e02  Optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.6 and efrac=0.02 (phys.abund)
  (4)e_logNO-a16e02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.6 and efrac=0.02 (stat.error)
  (4)logNO-a18e02  Optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.8 and efrac=0.02 (phys.abund)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)e_logNO-a18e02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-1.8 and efrac=0.02 (stat.error)
  (4)logNO-a20e02  Optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-2.0 and efrac=0.02 (phys.abund)
  (4)e_logNO-a20e02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming AGN models with alphaOX=-2.0 and efrac=0.02 (stat.error)
  (4)logNO-ADAFe02  Optical estimation of the nitrogen-to-oxygen abundances assuming advected-dominated accretion flow (ADAF) models and efrac=0.02 (phys.abund)
  (4)e_logNO-ADAFe02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming advected-dominated accretion flow (ADAF) and efrac=0.02 (stat.error)
  (4)logNO-T50kke02  Optical estimation of the nitrogen-to-oxygen abundances assuming pAGB models with T=50kK and efrac=0.02 (phys.abund)
  (4)e_logNO-T50kke02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming pAGB models with T=50kK and efrac=0.02 (stat.error)
  (4)logNO-T100kke02  Optical estimation of the nitrogen-to-oxygen abundances assuming pAGB models with T=100kK and efrac=0.02 (phys.abund)
  (4)e_logNO-T100kke02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming pAGB models with T=100kK and efrac=0.02 (stat.error)
  (4)logNO-T150kke02  Optical estimation of the nitrogen-to-oxygen abundances assuming pAGB models with T=150kK and efrac=0.02 (phys.abund)
  (4)e_logNO-T150kke02  Uncertainty in the optical estimation of the nitrogen-to-oxygen abundances assuming pAGB models with T=150kK and efrac=0.02 (stat.error)
  (5)logU-a08e02  Optical estimation of the ionization parameters assuming AGN models with alphaOX=-0.8 and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-a08e02  Uncertainty in the optical estimation of the ionization parameters assuming AGN models with alphaOX=-0.8 and efrac=0.02 (stat.error)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (5)logU-a10e02  Optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.0 and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-a10e02  Uncertainty in the optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.0 and efrac=0.02 (stat.error)
  (5)logU-a12e02  Optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.2 and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-a12e02  Uncertainty in the optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.2 and efrac=0.02 (stat.error)
  (5)logU-a14e02  Optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.4 and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-a14e02  Uncertainty in the optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.4 and efrac=0.02 (stat.error)
  (5)logU-a16e02  Optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.6 and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-a16e02  Uncertainty in the optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.6 and efrac=0.02 (stat.error)
  (5)logU-a18e02  Optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.8 and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-a18e02  Uncertainty in the optical estimation of the ionization parameters assuming AGN models with alphaOX=-1.8 and efrac=0.02 (stat.error)
  (5)logU-a20e02  Optical estimation of the ionization parameters assuming AGN models with alphaOX=-2.0 and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-a20e02  Uncertainty in the optical estimation of the ionization parameters assuming AGN models with alphaOX=-2.0 and efrac=0.02 (stat.error)
  (5)logU-ADAFe02  Optical estimation of the ionization parameters assuming advected-dominated accretion flow (ADAF) models and efrac=0.02 (phys.ionizParam.rad)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (5)e_logU-ADAFe02  Uncertainty in the optical estimation of the ionization parameters assuming advected-dominated accretion flow (ADAF) and efrac=0.02 (stat.error)
  (5)logU-T50kke02  Optical estimation of the ionization parameters assuming pAGB models with T=50kK and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-T50kke02  Uncertainty in the optical estimation of the ionization parameters assuming pAGB models with T=50kK and efrac=0.02 (stat.error)
  (5)logU-T100kke02  Optical estimation of the ionization parameters assuming pAGB models with T=100kK and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-T100kke02  Uncertainty in the optical estimation of the ionization parameters assuming pAGB models with T=100kK and efrac=0.02 (stat.error)
  (5)logU-T150kke02  Optical estimation of the ionization parameters assuming pAGB models with T=150kK and efrac=0.02 (phys.ionizParam.rad)
  (5)e_logU-T150kke02  Uncertainty in the optical estimation of the ionization parameters assuming pAGB models with T=150kK and efrac=0.02 (stat.error)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
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