VizieR

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

VizieR

  
J/ApJS/196/24
  Electron-impact excitation of CrII (Wasson+, 2011)
Post annotation
  
1.J/ApJS/196/24/table1Energy levels for all fine-structure target states of CrII considered in the present work (280 rows)
2.J/ApJS/196/24/table3Theoretical oscillator strengths and transition probabilities between all allowed fine structure transitions of Cr II (8341 rows)
3.J/ApJS/196/24/table4Maxwellian averaged effective collision strengths against temperature for allowed fine structure transitions of Cr II. Configurations are indexed by Table 1. (8669 rows)

 
Query by Constraints constraints help applied on Columns (Output Order: + - )
ShowSortJoin tables
more join
Column  Constraint Explain   (UCD)
  (ALL)recno  Record number assigned by the VizieR team. Should Not be used for identification. (meta.record)
  (1)Index   [1,280] Index value (meta.id)
  (1)Config (char) Configuration (phys.atmol.configuration;instr.setup)
  (1)LS (char) LS state (phys.atmol.configuration)
  (1)J  (n)Level (meta.id;phys.atmol.level)
  (1)E Ry Energy (in Rydbergs relative to the 3d5 6Se5/2 ground state) (phys.energy;phys.atmol.level)
  (2+3)i   [1,272] Lower level (meta.id)
  (2+3)j   [75,274] Upper level (meta.id)
  (2)J(i)  (n)Lower level angular momentum (phys.atmol.qn)
  (2)J(j)  (n)Upper level angular momentum (phys.atmol.qn)
  (2)dE eV Energy difference between upper and lower levels (phys.energy;phys.atmol.level)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (2)Flen  Length oscillator strength (phys.atmol.oscStrength)
  (2)Fvel  Velocity oscillator strength (phys.veloc;phys.atmol.oscStrength)
  (2)Alen  Length transition probability (phys.atmol.transProb)
  (2)Avel  Velocity transition probability (phys.veloc;phys.atmol.transProb)
  (3)ECS2k  Effective collision strength at 2000K (phys.atmol.collStrength)
  (3)ECS2.3k  Effective collision strength at 2300K (phys.atmol.collStrength)
  (3)ECS2.5k  Effective collision strength at 2500K (phys.atmol.collStrength)
  (3)ECS5k  Effective collision strength at 5000K (phys.atmol.collStrength)
  (3)ECS7.5k  Effective collision strength at 7500K (phys.atmol.collStrength)
  (3)ECS10k  Effective collision strength at 10000K (phys.atmol.collStrength)
  (3)ECS13k  Effective collision strength at 13000K (phys.atmol.collStrength)
  (3)ECS15k  Effective collision strength at 15000K (phys.atmol.collStrength)
  (3)ECS18k  Effective collision strength at 18000K (phys.atmol.collStrength)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (3)ECS20k  Effective collision strength at 20000K (phys.atmol.collStrength)
  (3)ECS30k  Effective collision strength at 30000K (phys.atmol.collStrength)
  (3)ECS40k  Effective collision strength at 40000K (phys.atmol.collStrength)
  (3)ECS50k  Effective collision strength at 50000K (phys.atmol.collStrength)
  (3)ECS60k  Effective collision strength at 60000K (phys.atmol.collStrength)
  (3)ECS70k  Effective collision strength at 70000K (phys.atmol.collStrength)
  (3)ECS80k  Effective collision strength at 80000K (phys.atmol.collStrength)
  (3)ECS90k  Effective collision strength at 90000K (phys.atmol.collStrength)
  (3)ECS100k  Effective collision strength at 100000K (phys.atmol.collStrength)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
Adapt form
Display your selection only Reset to default columns
usage  Display UCD1+    UCD1  
elapse time 0