VizieR

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

VizieR

  
J/A+A/574/A87
  MgV lines collision rates for electron excitation (Tayal+, 2015)
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2015A&A...574A..87T
Similar Catalogs
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1.J/A+A/574/A87/table1Comparison of energy levels in MgV (86 rows)
2.J/A+A/574/A87/table2Comparison of oscillator strengths and transition probabilities for some dipole radiative E1 transitions in MgV with other calculations (131 rows)
3.J/A+A/574/A87/table3Transition energies, oscillator strengths, and radiative rates for electric dipole (E1) transitions among LSJ levels in MgV (973 rows)
4.J/A+A/574/A87/table4Effective collision strengths for transitions in MgV (3655 rows)

Simple ConstraintList Of Constraints
 
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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)
  (1)Index  Index (meta.id)
  (1)CFG-LSJ (char) Configuration and LSJ value (phys.atmol.configuration)
  (1)EExp Ry (n) Experimental energy (phys.energy;phys.atmol.level)
  (1)Epa Ry Present energy with 5179 configurations (phys.energy;phys.atmol.level)
  (1)Epb Ry Present energy with 427 configurations (phys.energy;phys.atmol.level)
  (1)EpC Ry MCHF calculations of Tachiev and Froese Fischer from http://nlte.nist.gov/MCHF/view.html (phys.energy;phys.atmol.level)
  (1)EpB Ry Superstructure calculation of Bhatia et al. (2006, At. Data Nucl. Data Tables 92, 105) (phys.energy;phys.atmol.level)
  (1)EpH Ry (n) CIV3 calculations of Hudson et al. (2009A&A...494..729H, Cat. J/A+A/494/729) (phys.energy;phys.atmol.level)
  (1)EpBZ Ry (n) Superstructure calculations of Butler and Zeippen (1994A&AS..108....1B, Cat. J/A+AS/108/1) (phys.energy;phys.atmol.level)
  (2+3)i (char) Initial level (phys.atmol.initial;phys.atmol.level)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (2+3)f (char) Final level (phys.atmol.final;phys.atmol.level)
  (2+3)gi  Initial g value (phys.atmol.oscStrength)
  (2+3)gf  Final g value (phys.atmol.oscStrength)
  (2)fLP  Present length oscillator strength (phys.atmol.oscStrength)
  (2)ALP s-1 Present transition probability in length form (phys.atmol.transProb)
  (2)fLC  MCHF length oscillator strengths of Tachiev and Froese Fischer from http://nlte.nist.gov/MCHF/view.html (phys.atmol.oscStrength)
  (2)ALC s-1 MCHF length transition probabilities of Tachiev and Froese Fischer from http://nlte.nist.gov/MCHF/view.html (stat.probability;phys.atmol.transition)
  (2)fLB  Length oscillator strengths from Superstructure calculation of Bhatia et al. (2006, At. Data Nucl. Data Tables 92, 105) (phys.atmol.oscStrength)
  (2)ALB s-1 Length transition probabilities from Superstructure calculation of Bhatia et al. (2006, At. Data Nucl. Data Tables 92, 105) (stat.probability;phys.atmol.transition)
  (3)Wave 0.1nm Wavelength (ΔEif) (em.wl)
  (3)fL  Present length oscillator strength (phys.atmol.oscStrength)
  (3)fV  Present velocity oscillator strength (phys.veloc;phys.atmol.oscStrength)
  (3)AL s-1 Present transition probabilities in length form (stat.probability;phys.atmol.transition)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)i  Intial level (meta.note)
  (4)f  Final level (phys.atmol.final;phys.atmol.level)
  (4)ECS3.2  Effective Collision Strength at logTe=3.2K (phys.atmol.collStrength)
  (4)ECS3.4  Effective Collision Strength at logTe=3.4K (phys.atmol.collStrength)
  (4)ECS3.6  Effective Collision Strength at logTe=3.6K (phys.atmol.collStrength)
  (4)ECS3.8  Effective Collision Strength at logTe=3.8K (phys.atmol.collStrength)
  (4)ECS4.0  Effective Collision Strength at logTe=4.0K (phys.atmol.collStrength)
  (4)ECS4.2  Effective Collision Strength at logTe=4.2K (phys.atmol.collStrength)
  (4)ECS4.4  Effective Collision Strength at logTe=4.4K (phys.atmol.collStrength)
  (4)ECS4.6  Effective Collision Strength at logTe=4.6K (phys.atmol.collStrength)
  (4)ECS4.8  Effective Collision Strength at logTe=4.8K (phys.atmol.collStrength)
  (4)ECS5.0  Effective Collision Strength at logTe=5.0K (phys.atmol.collStrength)
  (4)ECS5.2  Effective Collision Strength at logTe=5.2K (phys.atmol.collStrength)

ALL cols		    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)ECS5.4  Effective Collision Strength at logTe=5.4K (phys.atmol.collStrength)
  (4)ECS5.6  Effective Collision Strength at logTe=5.6K (phys.atmol.collStrength)
  (4)ECS6.0  Effective Collision Strength at logTe=6.0K (phys.atmol.collStrength)

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