VizieR

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VizieR

  
J/A+A/545/A120
  X-ray bursting neutron star atmos. models. II (Suleimanov+, 2012)
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1.J/A+A/545/A120/setSet parameters (18 rows)
2.J/A+A/545/A120/tabled1Color and dilution factors (484 rows)
3.J/A+A/545/A120/tabled2*Atmosphere model spectra (fluxes) (Note) (5400 rows)
4.J/A+A/545/A120/tabled3*Atmosphere model spectra (specific intensities) (Note) (5400 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)Set  (i) [1/18] Set number (meta.id;meta.main)
  (1)X  X abundance (0, 0.7374, 1) (phys.abund.X)
  (1)Y  Y abundance (0, 0.2492, 0.2586, 0.2613, 0.2625, 1) (phys.abund.Y)
  (1)Z  Z abundance (0, 1.34E-2, 4.02E-3, 1.34E-3, 1.34E-4) (src.redshift)
  (1)logg [cm/s2] Logarithm of surface gravity (14.0, 14.3, 14.6) (phys.gravity)
  (1)TEdd keV Eddington temperature (9 values) (phys.temperature.effective)
  (1)R km Neutron star radius (8.16, 10.88, 14.80) (phys.size.radius)
  (1)z  Redshift (0.18, 0.27, 0.42) (src.redshift)
  (1)Lum  Number of luminosities for a given set (stat.fit.param)
  (2)l  Relative luminosity L/L_Edd (Note 1)   (phys.luminosity;arith.ratio)

ALL cols
    
 (i)indexed column
  (2)grad/g  Ratio of the radiation acceleration to gravity (stat.fit.param)
  (2)Teff keV Effective temperature (phys.temperature.effective)
  (2)fc1  Color correction factor fc,1 (Note 2)   (arith.factor;phot.flux)
  (2)fc2  Color correction factor fc,2 (Note 2)   (arith.factor;phot.flux)
  (2)fc3  Color correction factor fc,3 (Note 2)   (arith.factor;phot.flux)
  (2)fc4  Color correction factor fc,4 (Note 2)   (arith.factor;phot.flux)
  (2)fc5  Color correction factor fc,5 (Note 2)   (arith.factor;phot.flux)
  (2)w*fc1+4  Product of dilution factor and (fc1)4 (arith.factor;pos.distance)
  (2)w*fc2+4  Product of dilution factor and (fc2)4 (arith.factor;pos.distance)
  (2)w*fc3+4  Product of dilution factor and (fc3)4 (arith.factor;pos.distance)
  (3+4)E keV Photon energy (em.energy)
  (3)F(0001) mW/m2/keVFlux FE for l=0.001 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0003) mW/m2/keVFlux FE for l=0.003 (Note 1)   (phot.flux;em.X-ray)

ALL cols
    
 (i)indexed column
  (3)F(0010) mW/m2/keVFlux FE for l=0.01 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0030) mW/m2/keVFlux FE for l=0.03 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0050) mW/m2/keVFlux FE for l=0.05 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0070) mW/m2/keVFlux FE for l=0.07 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0100) mW/m2/keVFlux FE for l=0.1 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0150) mW/m2/keVFlux FE for l=0.15 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0200) mW/m2/keVFlux FE for l=0.2 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0300) mW/m2/keVFlux FE for l=0.3 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0400) mW/m2/keVFlux FE for l=0.4 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0500) mW/m2/keVFlux FE for l=0.5 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0550) mW/m2/keVFlux FE for l=0.55 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0600) mW/m2/keVFlux FE for l=0.6 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0650) mW/m2/keVFlux FE for l=0.65 (Note 1)   (phot.flux;em.X-ray)

ALL cols
    
 (i)indexed column
  (3)F(0700) mW/m2/keVFlux FE for l=0.7 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0750) mW/m2/keVFlux FE for l=0.75 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0800) mW/m2/keVFlux FE for l=0.8 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0850) mW/m2/keVFlux FE for l=0.85 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0900) mW/m2/keVFlux FE for l=0.9 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0950) mW/m2/keVFlux FE for l=0.95 (Note 1)   (phot.flux;em.X-ray)
  (3)F(0980) mW/m2/keVFlux FE for l=0.98 (Note 1)   (phot.flux;em.X-ray)
  (3)F(1000) mW/m2/keVFlux FE for l=1.0 (Note 1)   (phot.flux;em.X-ray)
  (3)F(1020) mW/m2/keVFlux FE for l=1.02 (Note 1)   (phot.flux;em.X-ray)
  (3)F(1040) mW/m2/keVFlux FE for l=1.04 (Note 1)   (phot.flux;em.X-ray)
  (3)F(1060) mW/m2/keVFlux FE for l=1.06 (Note 1)   (phot.flux;em.X-ray)
  (3)F(1080) mW/m2/keV(n) Flux FE for l=1.08 (Note 1)   (phot.flux;em.X-ray)
  (3)F(1100) mW/m2/keV(n) Flux FE for l=1.10 (Note 1)   (phot.flux;em.X-ray)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)I(0001,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.001 (Note 1)   (phot.flux)
  (4)I(0001,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.001 (Note 1)   (phot.flux)
  (4)I(0001,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.001 (Note 1)   (phot.flux)
  (4)I(0003,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.003 (Note 1)   (phot.flux)
  (4)I(0003,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.003 (Note 1)   (phot.flux)
  (4)I(0003,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.003 (Note 1)   (phot.flux)
  (4)I(0010,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.01 (Note 1)   (phot.flux)
  (4)I(0010,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.01 (Note 1)   (phot.flux)
  (4)I(0010,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.01 (Note 1)   (phot.flux)
  (4)I(0030,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.03 (Note 1)   (phot.flux)
  (4)I(0030,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.03 (Note 1)   (phot.flux)
  (4)I(0030,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.03 (Note 1)   (phot.flux)
  (4)I(0050,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.05 (Note 1)   (phot.flux)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)I(0050,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.05 (Note 1)   (phot.flux)
  (4)I(0050,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.05 (Note 1)   (phot.flux)
  (4)I(0070,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.07 (Note 1)   (phot.flux)
  (4)I(0070,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.07 (Note 1)   (phot.flux)
  (4)I(0070,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.07 (Note 1)   (phot.flux)
  (4)I(0100,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.1 (Note 1)   (phot.flux)
  (4)I(0100,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.1 (Note 1)   (phot.flux)
  (4)I(0100,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.1 (Note 1)   (phot.flux)
  (4)I(0150,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.15 (Note 1)   (phot.flux)
  (4)I(0150,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.15 (Note 1)   (phot.flux)
  (4)I(0150,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.15 (Note 1)   (phot.flux)
  (4)I(0200,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.2 (Note 1)   (phot.flux)
  (4)I(0200,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.2 (Note 1)   (phot.flux)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)I(0200,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.2 (Note 1)   (phot.flux)
  (4)I(0300,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.3 (Note 1)   (phot.flux)
  (4)I(0300,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.3 (Note 1)   (phot.flux)
  (4)I(0300,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.3 (Note 1)   (phot.flux)
  (4)I(0400,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.4 (Note 1)   (phot.flux)
  (4)I(0400,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.4 (Note 1)   (phot.flux)
  (4)I(0400,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.4 (Note 1)   (phot.flux)
  (4)I(0500,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.5 (Note 1)   (phot.flux)
  (4)I(0500,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.5 (Note 1)   (phot.flux)
  (4)I(0500,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.5 (Note 1)   (phot.flux)
  (4)I(0550,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.55 (Note 1)   (phot.flux)
  (4)I(0550,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.55 (Note 1)   (phot.flux)
  (4)I(0550,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.55 (Note 1)   (phot.flux)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)I(0600,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.6 (Note 1)   (phot.flux)
  (4)I(0600,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.6 (Note 1)   (phot.flux)
  (4)I(0600,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.6 (Note 1)   (phot.flux)
  (4)I(0650,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.65 (Note 1)   (phot.flux)
  (4)I(0650,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.65 (Note 1)   (phot.flux)
  (4)I(0650,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.65 (Note 1)   (phot.flux)
  (4)I(0700,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.7 (Note 1)   (phot.flux)
  (4)I(0700,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.7 (Note 1)   (phot.flux)
  (4)I(0700,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.7 (Note 1)   (phot.flux)
  (4)I(0750,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.75 (Note 1)   (phot.flux)
  (4)I(0750,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.75 (Note 1)   (phot.flux)
  (4)I(0750,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.75 (Note 1)   (phot.flux)
  (4)I(0800,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.8 (Note 1)   (phot.flux)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)I(0800,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.8 (Note 1)   (phot.flux)
  (4)I(0800,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.8 (Note 1)   (phot.flux)
  (4)I(0850,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.85 (Note 1)   (phot.flux)
  (4)I(0850,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.85 (Note 1)   (phot.flux)
  (4)I(0850,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.85 (Note 1)   (phot.flux)
  (4)I(0900,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.9 (Note 1)   (phot.flux)
  (4)I(0900,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.9 (Note 1)   (phot.flux)
  (4)I(0900,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.9 (Note 1)   (phot.flux)
  (4)I(0950,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.95 (Note 1)   (phot.flux)
  (4)I(0950,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.95 (Note 1)   (phot.flux)
  (4)I(0950,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.95 (Note 1)   (phot.flux)
  (4)I(0980,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=0.98 (Note 1)   (phot.flux)
  (4)I(0980,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=0.98 (Note 1)   (phot.flux)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)I(0980,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=0.98 (Note 1)   (phot.flux)
  (4)I(1000,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=1.0 (Note 1)   (phot.flux)
  (4)I(1000,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=1.0 (Note 1)   (phot.flux)
  (4)I(1000,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=1.0 (Note 1)   (phot.flux)
  (4)I(1020,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=1.02 (Note 1)   (phot.flux)
  (4)I(1020,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=1.02 (Note 1)   (phot.flux)
  (4)I(1020,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=1.02 (Note 1)   (phot.flux)
  (4)I(1040,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=1.04 (Note 1)   (phot.flux)
  (4)I(1040,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=1.04 (Note 1)   (phot.flux)
  (4)I(1040,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=1.04 (Note 1)   (phot.flux)
  (4)I(1060,0.113) mW/m2/keV/srIEi at cosi=0.113 for l=1.06 (Note 1)   (phot.flux)
  (4)I(1060,0.5) mW/m2/keV/srIEi at cosi=0.5 for l=1.06 (Note 1)   (phot.flux)
  (4)I(1060,0.887) mW/m2/keV/srIEi at cosi=0.887 for l=1.06 (Note 1)   (phot.flux)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)I(1080,0.113) mW/m2/keV/sr(n) IEi at cosi=0.113 for l=1.08 (Note 1)   (phot.flux)
  (4)I(1080,0.5) mW/m2/keV/sr(n) IEi at cosi=0.5 for l=1.08 (Note 1)   (phot.flux)
  (4)I(1080,0.887) mW/m2/keV/sr(n) IEi at cosi=0.887 for l=1.08 (Note 1)   (phot.flux)
  (4)I(1100,0.113) mW/m2/keV/sr(n) IEi at cosi=0.113 for l=1.1 (Note 1)   (phot.flux)
  (4)I(1100,0.5) mW/m2/keV/sr(n) IEi at cosi=0.5 for l=1.1 (Note 1)   (phot.flux)
  (4)I(1100,0.887) mW/m2/keV/sr(n) IEi at cosi=0.887 for l=1.1 (Note 1)   (phot.flux)

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