helike_adw05#ti20.dat

Resolved Specific Ion Data Collections

Ion
Ti20+
Temperature Range
7.600 eV → 7.600 x 104 eV

ADF04

Filename
helike_adw05#ti20.dat
Full Path
adf04/copaw#he/helike_adw05#ti20.dat
Download data
  • Spontaneous Emission: Ti+20(i) → Ti+20(j) + hv
  • Electron Impact Excitation: Ti+20(i) + e → Ti+20(j) + e
1s2 1S0.0 0.0 cm-1
1s1 2s1 3S1.0 37971600.0 cm-1
1s1 2p1 3P0.0 38151200.0 cm-1
1s1 2p1 3P1.0 38170000.0 cm-1
1s1 2s1 1S0.0 38178500.0 cm-1
1s1 2p1 3P2.0 38228500.0 cm-1
1s1 2p1 1P1.0 38362900.0 cm-1
1s1 3s1 3S1.0 44963300.0 cm-1
1s1 3p1 3P0.0 45012500.0 cm-1
1s1 3s1 1S0.0 45016000.0 cm-1
1s1 3p1 3P1.0 45017600.0 cm-1
1s1 3p1 3P2.0 45034600.0 cm-1
1s1 3d1 3D1.0 45063200.0 cm-1
1s1 3d1 3D2.0 45063900.0 cm-1
1s1 3p1 1P1.0 45070000.0 cm-1
1s1 3d1 3D3.0 45070500.0 cm-1
1s1 3d1 1D2.0 45071900.0 cm-1
1s1 4s1 3S1.0 47380600.0 cm-1
1s1 4p1 3P0.0 47400800.0 cm-1
1s1 4s1 1S0.0 47401500.0 cm-1
1s1 4p1 3P1.0 47402800.0 cm-1
1s1 4p1 3P2.0 47409900.0 cm-1
1s1 4d1 3D1.0 47421400.0 cm-1
1s1 4d1 3D2.0 47421800.0 cm-1
1s1 4p1 1P1.0 47424100.0 cm-1
1s1 4d1 3D3.0 47424500.0 cm-1
1s1 4f1 3F2.0 47425200.0 cm-1
1s1 4f1 3F3.0 47425200.0 cm-1
1s1 4d1 1D2.0 47425300.0 cm-1
1s1 4f1 3F4.0 47426700.0 cm-1
1s1 4f1 1F3.0 47426700.0 cm-1
1s1 5s1 3S1.0 48492700.0 cm-1
1s1 5p1 3P0.0 48502800.0 cm-1
1s1 5s1 1S0.0 48502800.0 cm-1
1s1 5p1 3P1.0 48503800.0 cm-1
1s1 5p1 3P2.0 48507300.0 cm-1
1s1 5d1 3D1.0 48513100.0 cm-1
1s1 5d1 3D2.0 48513300.0 cm-1
1s1 5p1 1P1.0 48514400.0 cm-1
1s1 5d1 3D3.0 48514600.0 cm-1
1s1 5f1 3F2.0 48515000.0 cm-1
1s1 5f1 3F3.0 48515000.0 cm-1
1s1 5d1 1D2.0 48515000.0 cm-1
1s1 5g1 3G3.0 48515800.0 cm-1
1s1 5g1 3G4.0 48515800.0 cm-1
1s1 5f1 3F4.0 48515800.0 cm-1
1s1 5f1 1F3.0 48515800.0 cm-1
1s1 5g1 3G5.0 48516200.0 cm-1
1s1 5g1 1G4.0 48516200.0 cm-1
------------------------------------------------------------------------

        Result of ICFT R-matrix calculation
        +++++++++++++++++++++++++++++++++++

 Calculation automated by offline ADAS code ADAS8#3

     Summary Information
     +++++++++++++++++++

 *  Ionisation energy taken from ADAS adf00 files

 *  Energy levels calculated by AUTOSTRUCTURE

 *  Radiative rates calculated by AUTOSTRUCTURE

 *  Effective collision strengths calculated by ICFT
    R-matrix calculation using target structure from
    AUTOSTRUCTURE.

     Calculation details
     +++++++++++++++++++

 The following scaling parameters on bound orbitals were used:

         1s = 1.0
         2s = 1.0
         2p = 1.0
         3s = 1.0
         3p = 1.0
         3d = 1.0
         4S = 1.00
         4P = 1.00
         4D = 1.00
         4F = 1.00
         5S = 1.00
         5P = 1.00
         5D = 1.00
         5F = 1.00
         5G = 1.00

 An exchange calculation was performed up to J=11.5
 A non-exchange calculation was then performed up to J=45
 Followed by a top-up calculation to J -> infinity.

 80 continuum basis orbitals were used, giving a smallest maximum
 basis-orbital energy of 2692.0846 Rydbergs (36628.503068 eV)

 A fine energy mesh of 0.000010 Z**2 Rydbergs (0.054424 eV) was used
 between the first and last thresholds for the excitation calculation.

 A coarse energy mesh of 0.001000 Z**2 Rydbergs (5.4424 eV) was used
 from the last threshold up to 3.312325 Z**2 Rydbergs (18027 eV) in the
 excitation calculation.

 A coarse energy mesh of 0.001000 Z**2 Rydbergs (5.4424 eV) was used
 from first threshold up to 3.312325 Z**2 Rydbergs (18027 eV) in the
 non-exchange calculation.

 Dipole and Born limits were used from the last calculated energy points
 up to infinite energy to complete the effective collision strengths

 Produced by: Allan Whiteford
 Date:        26/08/05
------------------------------------------------------------------------

Contributors

  • Allan Whiteford
  • Processes
  • States
  • Comments
  • Origins

Data Classes